Study on General Population of the Effect on Airway Protection of Drugs Used During Induction of General Anesthesia

BACKGROUND

Upper esophageal sphincter is a high pressure zone, behind the cricoid cartilage, which protects airway from aspiration. It consists on striated muscle fibers distributed in two zones: rapid twich oblique fibers correspondent to tyropharyngeal muscle and rapid but mostly slow twich horizontal fibers belonging to cricopharyngeal muscle. This permits sphincter maintain a constant basal tone but, at the same time, respond quickly to reflexes (1).

Upper esophageal sphincter pressure is distributed asymmetrically being greater anteroposteriorly than laterally. Peak anterior pressure is located more cranially than peak posterior pressure (2).

This makes manometric measurements difficult and some unreliable, unless high resolution manometry is used. Upper esophageal sphincter pressure is labile: it decreases with age and deterioration of the level of consciousness; while increases with stress, anxiety, inspiration and phonation. Patients referring dysphagia or gastroesophageal reflux may present altered manometric measurements (3).

Upper esophageal sphincter has a dynamic function, taking part during burps, in deglutition, and airway reflexes such as: esophagus-sphincter reflex, glottic- pharynx reflex and coughing ( 3).

Studies using propofol and sevoflurane at subhypnotic concentrations have shown a decrease in upper esophageal sphincter pressure, as well as pharynx descoordination (4). Midazolam at sedative doses was implicated in lowering upper esophageal sphincter pressure. Vanner et al made an anesthesia induction using midazolam, thiopental or ketamine, concluding that, except for the last one, all drugs caused a decrease in upper esophageal sphincter pressure. In another study of the same working group, inhalational anesthesia using protoxide and halothane was compared to intravenous anesthesia with thiopental. Upper esophageal sphincter pressure only descended under thiopental (5,6).

Since aspiration depends not only on upper esophageal sphincter but also on lower esophageal sphincter and barrier pressure, it is important to know how drugs affect them: Thiopental, opiates, dexmedetomidine and propofol may diminish lower esophageal sphincter tone (7).

Thörn K. et al studied the effect of sevoflurane on lower esophageal sphincter pressure and barrier pressure, objecting a statistically significant descend in both of them (8).

Some studies do not find an implication of propofol in lowering upper esophageal pressure (9).

Propofol, etomidate, and thiopental effect on upper esophageal sphincter pressure was evaluated in this study. All of them potentiate the inhibitory effect of GABA (gamma-amino-butiric acid) neurotransmisor; etomidate and thiopental also depress ascending activating reticular system. To measure how they affect level of consciousness, entropy, a parameter obtained from electroencephalic signal registration, has been used. Specifically, State Entropy (SE) was used, which computes over the frequency range of 0,8 to 32 Hz. Entropy monitoring has been validated using different hypnotics, being compared to other types of EEG records , as Bispectral Index (BIS) (10).

General anesthesia procedure for patients undergoing urgent surgery is usually done following a "rapid sequence technique". In addition to the possibility of existing full stomach, airway protection mechanisms may be altered during induction. That is why, finding a hypnotic, not to affect or in a lesser manner, upper esophageal sphincter, would be of interest.

PATIENTS AND METHODS Duly approved by the ethics comitee of Clínico San Carlos Hospital of Madrid in their meeting on the 8th of june of 2016 (act 6.1/16) the study was carried out between january of 2017 and july of 2019. 43 patients to be going under general anesthesia for programmed surgery were included, of which: 15 rejected taking part of the study; 3 did not pass dysphagia or reflux tests; 5 patients were lost due to different causes (2 did not tolerate the probe; in 2 cases the protocol failed; in 1 case there was a bias in manometric measurements).

Finally, the study was reduced to 20 patients: 12 men and 8 women, aged between 39 and 84 years old; mean age was 65,05 (13,13). In reference to anesthetic risk, 15% of patients were ASA I, 55% ASA II, and 30% were ASA III. Mean (sd) Body Mass Index was 26.70 (4.24) kg/m2.

Written informed consent was explained to all patients who freely signed it after having understood and accepted it. Patients were distributed randomly in 3 groups depending on the hypnotics they were receiving. During the progress of the investigation, given the difficulties to find people who wanted to participate in the study, the comparative was reduced to only 2 groups: propofol and etomidate. This explains the definitive distribution: 8 patients in propofol group; 9 in etomidate group; 3 in thiopental group.

Two anesthesiologists worked as research collaborators during each case. One of them was in charge of proceeding with the induction as the protocol dictated, and another research collaborator was exclusivelly dedicated to the informatic registry of all the parameters, recording all together for each patient in a single archive corresponding to each participant. A doctor specialized in gastroenterology, expert on manometry, was responsible for introducing the manometric probe and making the consequent measurements, synchronizing his work with that of the other two research collaborators mentioned above.

Once all data had been recorded, the main investigator, who ignored which medication had been given to each patient, gathered all the information together. Each hypnotic had been assigned to a different color so each patient was associated to a color and a number. In this way, any influence on the interpretation of the results was avoided.

The protocol was as follows: After 6-8 hours fast, patients were monitored with entropy (spectral entropy monitoring module, Healthcare Technologies ®), electrocardiogram, pulse oximetry, and sphingomanometry (hemodynamic and respiratory monitoring module for S/5Avance®, General Electric). A lubricated manometric probe was introduced through the nostril to locate it from the pharynx to the stomach using no sedation. After 1 minute to permit the patient get used to the probe and be calm. while receiving oxygen at 10 lpm through a face mask., an initial (basal) manometric measure was noted. In this moment, the hypnotic was administered during 30 s. (to emulate rapid-sequence induction) at the following doses: 2 mg/kg for propofol, 0.4 mg/kg for etomidate or 4 mg/kg for thiopental. Afterwards, once entropy reached a value of 60, a second measure of upper esophageal sphincter pressure was noted. In case entropy did not fall to 60 or less, it was waited the necessary time for the hypnotic to make its effect on level of consciousness (clinical signs such as loss of response, loss of eyelid reflex, absence of sympathetic system activation such as tachycardia or hypertension were indications of the patient´s state of consciousness in those cases). All measurements except for manometry were recorded with an interval of 1 second through Datex-OhmedaTM S/5 Collect® and data were collected in an excel chart. Later, it is all analized combining manometric, entropy, hemodynamic and respiratory measurements. In case of oxygen saturation values of 93% or less or mean arterial pressure descending 20% or more from basal, the record was stopped.

Statistical analysis Quantitative variables are described as median and interquartile range due to their no normal distribution in this study. Due to the small size of the sample no parametric tests are used. The study of the change that hypnotics cause on quantitative variables is carried out through Wilcoxon test. Analizing differences between groups, thiopental group is not taken into account given the small size of it. As a result, statistical tests used to compare variables between different hypnotics do not include thiopental group. Homogeneity of propofol and etomidate group is checked out through Mann- Whitney or Chi squared test depending on the type of variable under study, quantitative or cualitative, respectively. The study of parameters of interest (upper esophageal sphincter pressure; entropy) drop is done through the percentage of change they experiment after the hypnotic has been administered. The relationship of these two variables between both groups of hypnotics is analyzed by Mann- Whitney test. Level of significance is considered of 5%. Statistical software used was IBM SPSS Statistics v21.