FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W1997208672> ?p ?o ?g. }

• W1997208672 endingPage "54" @default.
• W1997208672 startingPage "45" @default.
• W1997208672 abstract "Venous air embolism (VAE) is a potentially fatal complication during surgical procedures with patients in the sitting position. Since methods for detection of persistent low-volume VAE and targeted air aspiration are limited, we tested the hypotheses that transvenous intracardiac echocardiography (ICE) 1) improves detection of small air emboli in comparison to transesophageal echocardiography (TEE) and precordial Doppler monitoring (PCD) techniques, and that 2) image-guided multiorifice central venous catheter manipulation improves air recovery in moderate and large VAE, when compared with aspiration with the multiorifice central venous catheter in a static position.Adult swine (73 +/- 4.6 kg, n = 7) were premedicated, anesthetized with propofol and fentanyl, endotracheally intubated, mechanically ventilated, and placed in a 45 degrees head-up position. First, nine different small volumes of air emboli (0.05-1 mL) were randomly injected via an ear vein, and VAE detection methods were applied in random order. For 378 small volume air injections, ICE had a much higher sensitivity (82.5%, P < 0.0001) on the analysis of VAE detection than TEE (52.8%) or PCD (46.8%), with no difference (P = 0.571) between TEE and PCD. An injected air volume as small as 0.15 mL was detected by ICE in 90% of injections performed, whereas PCD and TEE detected only half of the boluses of 0.25-0.30 mL of air, and required boluses of 0.4-1.0 mL to achieve 100% detection. Air recovery was assessed in a second series of moderate VAE (2, 5, 10 mL); image-guided aspiration-catheter manipulation recovered significantly more (34.1% vs 17.2%, P < 0.0001) intracardiac air than without catheter manipulation. In a third series of injections of large air volumes (25, 50, and 100 mL), air recovery was not significantly different with ultrasound-guided aspiration (41.3% vs 31.8%, P = 0.11).Small air emboli are detected by ICE with much greater sensitivity compared with both PCD and TEE techniques. Furthermore, recovery of embolized air is enhanced by image-guided manipulation of a multiorifice central venous catheter. Clinical studies are required to assess this technique during surgery with patients in the sitting position." @default.
• W1997208672 created "2016-06-24" @default.
• W1997208672 creator A5005605512 @default.
• W1997208672 creator A5019872029 @default.
• W1997208672 creator A5030876829 @default.
• W1997208672 creator A5077227994 @default.
• W1997208672 creator A5078912326 @default.
• W1997208672 date "2008-01-01" @default.
• W1997208672 modified "2023-10-10" @default.
• W1997208672 title "Intracardiac Transvenous Echocardiography Is Superior to Both Precordial Doppler and Transesophageal Echocardiography Techniques for Detecting Venous Air Embolism and Catheter-Guided Air Aspiration" @default.
• W1997208672 cites W1496648515 @default.
• W1997208672 cites W1919224639 @default.
• W1997208672 cites W19388221 @default.
• W1997208672 cites W1972874692 @default.
• W1997208672 cites W1979943923 @default.
• W1997208672 cites W1980090132 @default.
• W1997208672 cites W1982211012 @default.
• W1997208672 cites W1987497599 @default.
• W1997208672 cites W1988747492 @default.
• W1997208672 cites W1993198037 @default.
• W1997208672 cites W1993883240 @default.
• W1997208672 cites W1996892023 @default.
• W1997208672 cites W2007766217 @default.
• W1997208672 cites W2009524763 @default.
• W1997208672 cites W2012332460 @default.
• W1997208672 cites W2016440507 @default.
• W1997208672 cites W2018087391 @default.
• W1997208672 cites W2022683841 @default.
• W1997208672 cites W2023458100 @default.
• W1997208672 cites W2030515679 @default.
• W1997208672 cites W2031728566 @default.
• W1997208672 cites W2036470525 @default.
• W1997208672 cites W2045192768 @default.
• W1997208672 cites W2051968895 @default.
• W1997208672 cites W2059064238 @default.
• W1997208672 cites W2065830646 @default.
• W1997208672 cites W2066493175 @default.
• W1997208672 cites W2068770354 @default.
• W1997208672 cites W2074233261 @default.
• W1997208672 cites W2092916009 @default.
• W1997208672 cites W2093963930 @default.
• W1997208672 cites W2105368222 @default.
• W1997208672 cites W2106077514 @default.
• W1997208672 cites W2108226652 @default.
• W1997208672 cites W2137477642 @default.
• W1997208672 cites W2137881362 @default.
• W1997208672 cites W2141769191 @default.
• W1997208672 cites W2143257959 @default.
• W1997208672 cites W2146331672 @default.
• W1997208672 cites W2171943014 @default.
• W1997208672 cites W2252907053 @default.
• W1997208672 cites W2260094763 @default.
• W1997208672 cites W2339401328 @default.
• W1997208672 cites W3160269670 @default.
• W1997208672 cites W4232589614 @default.
• W1997208672 cites W4241135479 @default.
• W1997208672 cites W4243152718 @default.
• W1997208672 cites W4248144038 @default.
• W1997208672 cites W4379527807 @default.
• W1997208672 doi "https://doi.org/10.1213/01.ane.0000289646.81433.28" @default.
• W1997208672 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/18165549" @default.
• W1997208672 hasPublicationYear "2008" @default.
• W1997208672 type Work @default.
• W1997208672 sameAs 1997208672 @default.
• W1997208672 citedByCount "23" @default.
• W1997208672 countsByYear W19972086722012 @default.
• W1997208672 countsByYear W19972086722013 @default.
• W1997208672 countsByYear W19972086722014 @default.
• W1997208672 countsByYear W19972086722015 @default.
• W1997208672 countsByYear W19972086722016 @default.
• W1997208672 countsByYear W19972086722017 @default.
• W1997208672 countsByYear W19972086722019 @default.
• W1997208672 countsByYear W19972086722021 @default.
• W1997208672 countsByYear W19972086722023 @default.
• W1997208672 crossrefType "journal-article" @default.
• W1997208672 hasAuthorship W1997208672A5005605512 @default.
• W1997208672 hasAuthorship W1997208672A5019872029 @default.
• W1997208672 hasAuthorship W1997208672A5030876829 @default.
• W1997208672 hasAuthorship W1997208672A5077227994 @default.
• W1997208672 hasAuthorship W1997208672A5078912326 @default.
• W1997208672 hasBestOaLocation W19972086721 @default.
• W1997208672 hasConcept C126838900 @default.
• W1997208672 hasConcept C141071460 @default.
• W1997208672 hasConcept C164705383 @default.
• W1997208672 hasConcept C2777185221 @default.
• W1997208672 hasConcept C2779806549 @default.
• W1997208672 hasConcept C2781267111 @default.
• W1997208672 hasConcept C42219234 @default.
• W1997208672 hasConcept C71924100 @default.
• W1997208672 hasConcept C80093799 @default.
• W1997208672 hasConcept C81182388 @default.
• W1997208672 hasConceptScore W1997208672C126838900 @default.
• W1997208672 hasConceptScore W1997208672C141071460 @default.
• W1997208672 hasConceptScore W1997208672C164705383 @default.
• W1997208672 hasConceptScore W1997208672C2777185221 @default.
• W1997208672 hasConceptScore W1997208672C2779806549 @default.
• W1997208672 hasConceptScore W1997208672C2781267111 @default.
• W1997208672 hasConceptScore W1997208672C42219234 @default.

• next