The Effect of Ketamine on the WAVCNS Index During General Anesthesia: A Feasibility Study

Purpose of Study The primary aim of this study is to analyze the effect of two different intra-operative ketamine doses, within the low, analgesic range, on raw and processed EEG (the WAVCNS) during induction, maintenance, and emergence from general anesthesia compared to a no-ketamine control group. These data will be compared against other more traditional measures of depth of hypnosis (DoH), such as drug requirements, blood pressure, heart rate, and the occurrence of any unwanted intra-operative events. Ultimately, the results of this study will be used to assess whether or not it is feasible to rely on the WAVCNS index, as a valid measure of anesthetic effect, when either of these doses of ketamine has been added to an anesthetic regime. This will inform the feasibility of a larger trial comparing the effect of low dose ketamine on the performance of an automated anesthesia system.

Secondarily, this study aims to observe certain post-operative outcomes that have previously been shown to be influenced by ketamine administration, in order to better understand the potential for patient benefit associated with these doses of ketamine. Specifically, we will record pain intensity, opioid requirements, PONV, dreaming, and shivering occurring in the post-anesthesia care unit (PACU).

Justification for Study The amount of anesthetic required to maintain an adequate DoH varies widely between individual patients, and within patients under different conditions. Processed EEG-based DoH monitors provide the opportunity to deliver drugs at a dose more appropriate to a patient according to dynamic feedback of therapeutic effect. As a result, the quality of an anesthetic regimen and patient outcomes may be improved. However, since pEEG values are affected differently by different types and doses of drugs, these monitors would be much better utilized if the effects of certain drugs on processed values were better defined. Accumulating evidence suggests that the use of low dose intra-operative ketamine has the potential to be clinically beneficial, especially in terms of reducing post-operative pain, which may lead to reduced risk of delirium or chronic pain development. However, conclusive evidence on the effect of ketamine on pEEG indices is lacking and in particular, the effect of low dose ketamine on the NeuroSENSE monitor's WAVCNS index has not been investigated. This study will help to establish whether the WAVCNS index may be used as a reliable measure of clinical effect when one of two low doses of ketamine is used during general anesthesia. This is a significant step towards the development of a larger randomized controlled clinical trial in which the influence of ketamine on pEEG feedback-based anesthesia will be assessed.

Methods Study Design This randomized, open-label, feasibility study will be undertaken in a sample of healthy adult outpatient surgery patients under the direct and immediate supervision of an experienced anesthesiologist.

Intervention

Patients will undergo general anesthesia, consisting of continuous infusions of propofol (for anesthesia) and remifentanil (for analgesia). The study-specific intervention is the addition of EEG monitoring with the NeuroSENSE monitor in all three groups, and the addition of one of two possible ketamine doses (bolus and infusion) in two groups:

• Group 1: Ketamine 0.5 mg/kg loading dose followed by a 10 mcg/kg/min infusion
• Group 2: Ketamine 0.25 mg/kg loading dose followed by a 5 mcg/kg/min infusion
• Group 3: Control - No ketamine

Randomization Thirty study participants will be randomly allocated to one of three groups based on a randomization code assigned to them after they have provided their informed consent. Randomization will be performed in block sizes of six subjects to maintain relatively even group sizes throughout the study period.

Blinding The goal of this study is to integrate the protocol with an otherwise standard anesthetic. As a result, the anesthesiologist will be blinded to the NeuroSENSE monitor display, as the use of EEG monitoring is not currently part of standard practice. The anesthesiologist will instead rely on feedback from the other patient monitors in the OR, as they normally would. The NeuroSENSE monitor screen will be covered by an opaque card during the entire procedure, except for the displayed signal quality information. Blinding is required to avoid influencing the anesthesiologist's decisions based on EEG parameters.