FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2109367029> ?p ?o ?g. }

• W2109367029 endingPage "613" @default.
• W2109367029 startingPage "608" @default.
• W2109367029 abstract "BackgroundMeasuring propofol concentration in plasma (cPPL) and in exhaled alveolar gas (cPG) during constant infusion provides information about their respective time courses. In the present study, we compared these time courses in patients undergoing cardiac surgery from the beginning of propofol anaesthesia until eye opening upon awakening.MethodsThe cPG was measured before, during, and after continuous infusion of propofol for general anaesthesia in 12 patients at two randomly allocated doses (3 or 6 mg kg−1 h−1). Gas samples were collected on Tenax tubes. After thermodesorption, cPG was measured by gas chromatography mass spectrometry. Simultaneously with exhaled gas, arterial blood was sampled for measuring cPPL by reversed-phase high-performance liquid chromatography with fluorescence detection. In order to compare the time courses of cPPL and cPG as dimensionless values directly, each gas and plasma value was normalized by relating it to the corresponding value at the end of the initial infusion after 40 min.ResultsThe cPG ranged between 2.8 and 22.5 ppb, whereas the corresponding cPPL varied between 0.3 and 3.3 μg ml−1. Normalized concentration values showed a delayed increase in cPG compared with cPPL under constant propofol infusion before the onset of cardiopulmonary bypass, and a delayed decrease after stopping the propofol at the end of anaesthesia.ConclusionsPropofol can be measured in exhaled gas from the beginning until the end of propofol anaesthesia. The different time courses of cPPL and cPG have to be considered when interpreting cPG. Measuring propofol concentration in plasma (cPPL) and in exhaled alveolar gas (cPG) during constant infusion provides information about their respective time courses. In the present study, we compared these time courses in patients undergoing cardiac surgery from the beginning of propofol anaesthesia until eye opening upon awakening. The cPG was measured before, during, and after continuous infusion of propofol for general anaesthesia in 12 patients at two randomly allocated doses (3 or 6 mg kg−1 h−1). Gas samples were collected on Tenax tubes. After thermodesorption, cPG was measured by gas chromatography mass spectrometry. Simultaneously with exhaled gas, arterial blood was sampled for measuring cPPL by reversed-phase high-performance liquid chromatography with fluorescence detection. In order to compare the time courses of cPPL and cPG as dimensionless values directly, each gas and plasma value was normalized by relating it to the corresponding value at the end of the initial infusion after 40 min. The cPG ranged between 2.8 and 22.5 ppb, whereas the corresponding cPPL varied between 0.3 and 3.3 μg ml−1. Normalized concentration values showed a delayed increase in cPG compared with cPPL under constant propofol infusion before the onset of cardiopulmonary bypass, and a delayed decrease after stopping the propofol at the end of anaesthesia. Propofol can be measured in exhaled gas from the beginning until the end of propofol anaesthesia. The different time courses of cPPL and cPG have to be considered when interpreting cPG." @default.
• W2109367029 created "2016-06-24" @default.
• W2109367029 creator A5025509689 @default.
• W2109367029 creator A5039626163 @default.
• W2109367029 creator A5047027514 @default.
• W2109367029 creator A5053129306 @default.
• W2109367029 creator A5062780482 @default.
• W2109367029 creator A5064467277 @default.
• W2109367029 creator A5064979704 @default.
• W2109367029 creator A5086350763 @default.
• W2109367029 date "2009-05-01" @default.
• W2109367029 modified "2023-10-01" @default.
• W2109367029 title "Propofol concentration in exhaled air and arterial plasma in mechanically ventilated patients undergoing cardiac surgery" @default.
• W2109367029 cites W1985963215 @default.
• W2109367029 cites W2003756672 @default.
• W2109367029 cites W2011034632 @default.
• W2109367029 cites W2015983312 @default.
• W2109367029 cites W2065191411 @default.
• W2109367029 cites W2100760558 @default.
• W2109367029 cites W2106212678 @default.
• W2109367029 cites W2116863602 @default.
• W2109367029 cites W2147184595 @default.
• W2109367029 cites W2162299907 @default.
• W2109367029 cites W2166700156 @default.
• W2109367029 cites W2173102788 @default.
• W2109367029 doi "https://doi.org/10.1093/bja/aep053" @default.
• W2109367029 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/19336539" @default.
• W2109367029 hasPublicationYear "2009" @default.
• W2109367029 type Work @default.
• W2109367029 sameAs 2109367029 @default.
• W2109367029 citedByCount "55" @default.
• W2109367029 countsByYear W21093670292012 @default.
• W2109367029 countsByYear W21093670292013 @default.
• W2109367029 countsByYear W21093670292014 @default.
• W2109367029 countsByYear W21093670292015 @default.
• W2109367029 countsByYear W21093670292016 @default.
• W2109367029 countsByYear W21093670292017 @default.
• W2109367029 countsByYear W21093670292018 @default.
• W2109367029 countsByYear W21093670292019 @default.
• W2109367029 countsByYear W21093670292020 @default.
• W2109367029 countsByYear W21093670292021 @default.
• W2109367029 countsByYear W21093670292022 @default.
• W2109367029 countsByYear W21093670292023 @default.
• W2109367029 crossrefType "journal-article" @default.
• W2109367029 hasAuthorship W2109367029A5025509689 @default.
• W2109367029 hasAuthorship W2109367029A5039626163 @default.
• W2109367029 hasAuthorship W2109367029A5047027514 @default.
• W2109367029 hasAuthorship W2109367029A5053129306 @default.
• W2109367029 hasAuthorship W2109367029A5062780482 @default.
• W2109367029 hasAuthorship W2109367029A5064467277 @default.
• W2109367029 hasAuthorship W2109367029A5064979704 @default.
• W2109367029 hasAuthorship W2109367029A5086350763 @default.
• W2109367029 hasBestOaLocation W21093670291 @default.
• W2109367029 hasConcept C185592680 @default.
• W2109367029 hasConcept C2776277131 @default.
• W2109367029 hasConcept C2778881276 @default.
• W2109367029 hasConcept C2779537118 @default.
• W2109367029 hasConcept C42219234 @default.
• W2109367029 hasConcept C71924100 @default.
• W2109367029 hasConceptScore W2109367029C185592680 @default.
• W2109367029 hasConceptScore W2109367029C2776277131 @default.
• W2109367029 hasConceptScore W2109367029C2778881276 @default.
• W2109367029 hasConceptScore W2109367029C2779537118 @default.
• W2109367029 hasConceptScore W2109367029C42219234 @default.
• W2109367029 hasConceptScore W2109367029C71924100 @default.
• W2109367029 hasIssue "5" @default.
• W2109367029 hasLocation W21093670291 @default.
• W2109367029 hasLocation W21093670292 @default.
• W2109367029 hasOpenAccess W2109367029 @default.
• W2109367029 hasPrimaryLocation W21093670291 @default.
• W2109367029 hasRelatedWork W2049219137 @default.
• W2109367029 hasRelatedWork W206795022 @default.
• W2109367029 hasRelatedWork W2352028511 @default.
• W2109367029 hasRelatedWork W2366824129 @default.
• W2109367029 hasRelatedWork W2410594941 @default.
• W2109367029 hasRelatedWork W2465885982 @default.
• W2109367029 hasRelatedWork W3030982674 @default.
• W2109367029 hasRelatedWork W3032076372 @default.
• W2109367029 hasRelatedWork W2074942032 @default.
• W2109367029 hasRelatedWork W2537160113 @default.
• W2109367029 hasVolume "102" @default.
• W2109367029 isParatext "false" @default.
• W2109367029 isRetracted "false" @default.
• W2109367029 magId "2109367029" @default.
• W2109367029 workType "article" @default.