Abstract
The plasma propofol concentration is important information for anaesthetists to monitor and adjust the anaesthesia depth for patients during a surgery operation. In this paper, a stand-alone ion mobility spectrometer (IMS) was constructed for the rapid measurement of the plasma propofol concentrations. Without any sample pre-treatment, the plasma samples were dropped on a piece of glass microfiber paper and then introduced into the IMS cell by the thermal desorption directly. Each individual measurement could be accomplished within 1 min. For the plasma propofol concentrations from 1 to 12 μg mL−1, the IMS response was linear with a correlation coefficient R2 of 0.998, while the limit of detection was evaluated to be 0.1 μg mL−1. These measurement results did meet the clinical application requirements. Furthermore, other clinically-often-used drugs, including remifentanil, flurbiprofen and atracurium, were found no significant interference with the qualitative and quantitative analysis of the plasma propofol. The plasma propofol concentrations measured by IMS were correlated well with those measured by the high performance liquid chromatography (HPLC). The results confirmed an excellent agreement between these two methods. Finally, this method was applied to monitor the plasma propofol concentrations for a patient undergoing surgery, demonstrating its capability of anaesthesia monitoring in real clinical environments.
Highlights
Concentration information within a very short period of time, such as within 1 minute instead of more than a few dozen of minutes, in order to make a suitable adjustment for the propofol injection
In our previous works, we constructed a membrane inlet for our own ion mobility spectrometry system using a hydrophobic silicone membrane, achieving a selective detection of the exhaled propofol[26,27]; subsequently, we developed a time-resolved dynamic dilution ion mobility spectrometry for measuring the exhaled air directly, realizing the anhysteretic monitoring of the exhaled propofol concentrations for the patients undergoing surgery[28]
We demonstrated a stand-alone Ion mobility spectrometry (IMS) to measure the propofol concentrations in plasma
Summary
Concentration information within a very short period of time, such as within 1 minute instead of more than a few dozen of minutes, in order to make a suitable adjustment for the propofol injection. In our previous works, we constructed a membrane inlet for our own ion mobility spectrometry system using a hydrophobic silicone membrane, achieving a selective detection of the exhaled propofol[26,27]; subsequently, we developed a time-resolved dynamic dilution ion mobility spectrometry for measuring the exhaled air directly, realizing the anhysteretic monitoring of the exhaled propofol concentrations for the patients undergoing surgery[28]. No works have been published to use IMS measuring the propofol in liquid phase, especially for the plasma propofol. The proposed IMS method was evaluated by comparing its measurement results with those obtained by HPLC. This method was applied to monitor the plasma propofol concentrations for a patient undergoing surgery
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