Clinical Trial Details
— Status: Completed
Administrative data
| NCT number |
NCT04874545 |
| Other study ID # |
FMBSUREC/1206018/Abdelhamid |
| Secondary ID |
|
| Status |
Completed |
| Phase |
Phase 4
|
| First received |
|
| Last updated |
|
| Start date |
June 1, 2021 |
| Est. completion date |
December 1, 2021 |
Study information
| Verified date |
May 2022 |
| Source |
Beni-Suef University |
| Contact |
n/a |
| Is FDA regulated |
No |
| Health authority |
|
| Study type |
Interventional
|
Clinical Trial Summary
Perioperative hearing loss is a rarely reported phenomenon. However, it occurs more
frequently than most anaesthesiologists suspect. Perioperative hearing impairment is often
subclinical and may go unnoticed unless audiometry is performed.
It can be conductive or sensorineural, unilateral or bilateral, and transient or permanent.
Hearing loss has been reported following virtually every type of anaesthetic technique.
The hearing mechanism may be less susceptible to acoustic trauma during general anaaesthesia.
But other mechanisms are capable of causing both conductive and sensorineural hearing losses
(SNHL) in the perioperative period. The aetiologies include mechanical, traumatic,
noise-induced, changes in cerebrospinal fluid (CSF) pressure, embolism, pharmacologic, and
other miscellaneous causes.
Stress may influence central vestibular function in health and disease either directly
through the actions of glucocorticoids (cortisol and corticosterone) on ion channels and
neurotransmission in the brain, or indirectly through the effects of stress-related
neuroactive substances (e.g., histamine, neurosteroids) on these structures.
The auditory brainstem response (ABR) provides a good estimate of the shape of the behavioral
audiogram [and is thus an extremely useful tool for studying hearing sensitivity as well as
the functionality of the auditory system.
An awareness of the potential for and the causes of hearing loss during anesthesia may permit
the anesthesiologist to prevent or minimize the risk of significant hearing deficit. The
suggestion that this risk be discussed in the preoperative period with patients who are at
high risk for perioperative hearing loss may be good medical-legal advice. Better
understanding of the incidence, causes, and prognoses for perioperative hearing loss is
essential for the anesthesiologist.
Much Concern has been raised about the effects of anaesthetic drugs on cognition.
Postoperative cognitive dysfunction may manifest as impairment in attention, memory, language
or executive functions following surgery, and can persist for weeks, months, or more with
varying severity. Such post-operative cognitive dysfunction can be quite mild and only
diagnosed through psychometric assessment using specific neuropsychological tests.
AIM OF THE STUDY The aim of this work is to study the possible deleterious effect of propfol
versus sevoflurane on auditory and cognitive function.
Description:
Type and site of the study:
This study will be carried out at Beni-Suef university hospital, after approval by the
department of Anaesthesiology, the local ethics and research committee and other involved
departments, faculty of medicine, Beni-Suef University.
Date of the study:
The study will be performed starting from 1st of January 2021
Study design and population: This is a prospective randomized study that will be carried out
on patients subjected to general anaesthesia.
Sampling Technique:
Patients will be randomly assigned into one of two equal groups Randomization will be carried
out using a closed opaque envelope technique with the anesthetist will pick up a sealed
envelope which contains a paper with the name of the group to which the patient will be
randomized is written. Whichever the group written on the paper, the patient will be
scheduled to it.
The patients will be subjected to the following:
- A routine preoperative check-up will be performed. Routine hematological and biochemical
testing, along with electrocardiograms will be performed for patients. The procedure
will be explained to the patients
- On arrival to the operating theatre, 18 G intravenous cannula will be inserted and IV
crystalloid fluids will be infused, the monitor will be attached to the patients to take
preoperative readings of heart rate, non-invasive arterial blood pressure, SpO2.
- The patients will be randomly divided to one of two groups:
Group 1:
- Induction of anesthesia will be done by injecting fentanyl 2 μg/kg, propofol1.5-2.5
mg/kg and atracurium 0.5 mg/kg for muscle relaxation. Laryngoscopy and endotracheal
intubation will be performed using oral cuffed tube lubricated with lidocaine jelly 2 %.
- Maintenance of anaesthesia will be done using Propofol total intravenous anesthesia
(TIVA) 6-12 mg/ kg/h by syringe pump, 100 % O2.
Group 2:
- Induction of anesthesia will be done by injecting fentanyl 2 μg/kg, propofol1.5-2.5
mg/kg and atracurium 0.5 mg/kg for muscle relaxation. Laryngoscopy and endotracheal
intubation will be performed using oral cuffed tube lubricated with lidocaine jelly 2 %.
- Maintenance of anaesthesia will be done using sevoflorane1.5-2%, 100 % O2. The
concentrations of propofol and sevoflorane will be adjusted according to patient's vital
sign
Ventilation in both groups will be controlled artificially to maintain an end-tidal partial
pressure of carbon dioxide of 33-35 mmHg.
At the end of surgery, neuromuscular blockade will be reversed with IV neostigmine 0.04mg/kg
and atropine 0.02 mg/kg, the trachea will be extubated when the patient respond to commands,
all patients will be transferred to PACU, where they receive oxygen via face mask 3-4 L/min
and will be monitored.
The following parameters will be evaluated and recorded by senior anesthesiologist unaware of
the study protocol:
1. Demographic data: age and sex
2. Operation type.
3. Duration of anesthesia
4. Hemodynamics of the patients: Mean arterial blood pressure and heart rate, SPO2, End
tidal CO2: will be continuously monitored and recorded every 15 minutes
All included patients will be subjected to the following (preoperative and 1 week
postoperative):
1) Cognitive assessment:
Cognitive functions for the patients will be assessed using the following psychometric tests:
1. Paired Associate Learning test (PALT) (9):
- Aim: to assess auditory verbal memory. The test uses the concept of semantic cueing
- Administration and scoring: In this test, the examiner says ten associated pairs in
front of the candidate. These pairs contain 6 compatible semantically related pairs
and 4 incompatible semantically unrelated pairs. After one minute, the candidate is
given the first word of the pairs and is asked to recall the second word. The test
is repeated three times. Each correct compatible pair takes a score 0.5, while each
correct incompatible pair takes a score 1. The total score ranges from 0 to 21.
2. Paced Auditory Serial Addition Test (PASAT) ( 10):
• Aim: Paced Auditory Serial Addition test is used for assessment of attention and
auditory working memory
• Administration and scoring: In this test, a series of 61 single digit numbers are
spoken on an audiotape (or CD) at a rate of one every 3 seconds. The subject is asked to
add each number to the one immediately preceding it and not to give a running total. The
subject has to report the sum orally. Total score is the sum of correct responses and it
ranges from 0 to 60.
2) Audiological assessment:
1. Audiological evaluation: tonal audiometry in the frequency range 0.25 - 8 kHz. Using
orbiter 922 in a sound treated room with a TDH 39 earphones. Speech audiometry including
speech reception threshold (SRT) using arabic spondee words, (11) and word
discrimination score (WDS), using, arabic phonetically balanced (PB) words. (11)
Immittancemetry: will be done using AD 629 Interacoustic, calibrated according to the
ISO standard, using single-component, single-frequency tympanometry with a probe tone of
226 Hz. Testing of the acoustic reflex threshold, for ipsilateral and contralateral
elicited reflexes, using pure tones at 500, 1000, 2000 and 4000 Hz.
2. Brainstem auditory evoked potentials (BAEPs): will be performed using (Interacoustic
Eclipse ''EP25''). The reference electrodes will be placed on the right(A2) and left
(Al) mastoids, the active is on the scalp at the vertex (Fz position of the 10-20
International System of EEG electrode placement) and the ground electrode is on the
lower mid-frontal area (Fpz position). Ag/AgCl electrodes filled with conductive paste
will be fixed to skin that will be abraded with a skin prepping gel. Electrode
impedances will be less than 5 kΩ, and inter-electrode impedances will be less than 2
kΩ. The subject should be in relaxed state. Click is presented through TDH39 headphones.
Click will be presented at a rate of 21.1 stimuli per second in rarefaction polarity at
intensity of 80 dBHL. Averaged potentials to 1200 clicks will be obtained. Two
recordings will be obtained to ensure the replicability of the waveforms. The latencies
of waves I, III, V and interpeak latencies I-V, I- III, III-V (IPLs) will be studied
with BAEPs.
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