Anesthesia Clinical Trial
Official title:
Changes of Skin Resistance After Midazolam and After the End of Anaesthesia
It has been described that sympathetic activity, measured as changes in electrical skin resistance (SR), may be used to assess the adequacy of general anaesthesia. Our prospective study investigated how far measurements of skin resistance can help determine level of sedation. The secondary aim was to investigate if changes in skin resistance can be used for assessing recovery from anaesthesia.
Introduction Before anaesthesia, benzodiazepines are routinely used to reduce anxiety before
anaesthesia and surgery. Usually anxiolysis is preferable to sedation, which may interfere
with recovery after short procedures. Unfortunately, although anxiolytic sedatives are widely
used in clinical practice, the methodology for assessing treatment effect of these compounds
has not been well developed. Psychologic tests like the Hamilton Anxiety Rating Scale (HARS),
the Wang Anxiety Rating Scale (WARS), or Zung Self-Rating Anxiety Scale (SAS) were used to
assess changes in anxiety were developed for measuring effect of long-term therapy and are
rather cumbersome and difficult to use in routine anaesthetic praxis.
More commonly used test in clinical perioperative use are the Ramsay sedation scale (RSS),
the Richmond Agitation-Sedation Scale (RASS) and the Observer's Assessment of Alertness and
Sedation scale (OAASS), but they focus mainly on level of sedation and not the level of
anxiolysis. There are several reports demonstrating that there is a correlation between level
of anxiety and changes in skin resistance.
Changes of skin resistance (SI) were first used in criminology in 1897 and in 1921 the method
was used in criminology by August Larson together with changes of heart rate, respiratory
rate and blood pressure for construction of polygraph. This method was many times validated
and polygraph is still used as a "lie detector". More recently sever studies appeared
demonstrating correlation between changes of skin resistance and sedation grade, bispectral
index, reaction to stimulation, pain and motor activity.
The present double-blinded study was designed to refine methodology for objective evaluating
effect of sedative and anxiolytic agents. The primary aim of our study was to examine if of
changes in skin resistance after placebo pre-screening can be used for objective assessment
of an anxiolytic effect of drugs compared to commonly used subjective scales like Ramsay
sedation scale (RSS), or The Richmond Agitation-Sedation Scale (RASS) and Observer's
Assessment of Alertness and Sedation scale(OAASS). The secondary aim was to evaluate if
changes of skin resistance can be used for assessing recovery from anaesthesia.
Patients The study was performed in adult patients scheduled for knee arthroscopy or minor
plastic surgery under general anaesthesia. Consent was obtained the day before surgery during
pre-anaesthetic visit. Exclusion criteria were previous history of taking drugs affecting
mental functions, history of psychic illness, implanted electrical device, know allergy to
benzodiazepines, myasthenia gravis, ASA classification ASA 3 and more. All patients consented
not to use any medication for sedation or anxiety, opioid analgesics, ethanol and illicit
drugs 24 hours before surgery. Patients were instructed that they will be administered by a
random order first sedative agent or placebo and will be observed for their level of
sedation.
Measurements After arrival at the operating theatre, and venepuncture two standard AgCl ECG
electrodes (Medico Electrodes International ltd.) size 32 mm x 52 mm (27x35) were attached to
the palm side of the second and third finger of the non-dominating hand. Multimeter DM 3900
(Mastech) was used for measurements of SR. The device was controlled and approved for use in
humans by the Department of Medical Biophysics and Informatics of the 3rd Medical Faculty of
Charles University.
Observer's Assessment of Alertness and Sedation (OAAS) scale was used as a standard tool for
measurements of sedation level at the same intervals as measurements of SR. The person
providing OAAS assessment was blinded to the order of midazolam and placebo injection and
only the anaesthetist administering both injections knew the order of drugs.
Data recording Ten min. rest break was given to participants in order that they adapt to the
test situation. The rest value of SR was noticed and next all patients were administered
placebo first and after 5 min period midazolam 2 mg i.v. After next 5 minutes patients were
administered standard general anaesthesia with propofol, oxygen, nitrous oxide 60 % and
isoflurane 1 MAC via laryngeal mask and sufentanil as needed. Monitoring was standard for
this type of surgery (ECG, non-invasive blood pressure - NIBP, capnography and pulse
oximetry). SR and OASS were recorded again after stop of volatile anaesthetic agent till
opening eyes of the patient and obtaining verbal contact.
Statistical analysis SR values before placebo administration, 5 minutes after placebo, 5
minutes after midazolam, 5 min. after induction, at the end of surgery, 0 isoflurane level
after anaesthesia with closed eyes and after eyes opening were recorded. Changes in SR values
compared to baseline data were used for analyses by paired t-test. These relative changes
enabled to compare only the course of changes independently of different absolute values.
Pearson´s correlation coefficients were used to analyse relationship between OASS and SR
values. P-value < 0.05 was considered statistically significant.
The primary aim of our study was to assess if SR can be used as an objective measurement of
level of sedation compared to much or less subjective OAAS. OASS was chosen because scoring
was originally introduced to assess sedation with benzodiazepines, which was used in our
study, too. The categories were responsiveness, speech, facial expression and eye appearance
and each category was originally scored in 5 dimensions. The OAAS scale was found to have a
high discriminatory power for the different levels of sedation (3), but may vary between
observers. There is a limited number of methods for assessment onset and intensity of
sedation. Commonly used Bispectral Index Score (BIS) monitoring is not dependent on a person
and is used mainly during general anaesthesia. On the other hand the authors of a large
meta-analysis concluded that its use for sedation in largely unreliable.
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