FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W1967599242> ?p ?o ?g. }

• W1967599242 endingPage "1395" @default.
• W1967599242 startingPage "1389" @default.
• W1967599242 abstract "Objective The elastic properties of the carotid arterial wall have not been directly characterized in the clinical setting. Strain rate (SR) imaging is a newly developed echocardiographic method developed for imaging the tissue motion of the myocardium. The purpose of this study was to directly estimate the elastic properties of the carotid artery by using SR imaging in patients with coronary artery disease (CAD). Methods A total of 135 patients with CAD, 15 age-matched controls, and 35 young healthy subjects had a carotid ultrasound examination for measuring the values of SR and strain of the carotid artery. The intima–media thickness and distensibility coefficient of the carotid artery were estimated. Results Age and Framingham risk score were significantly related to SR and strain, respectively (r = 0.62-0.67, all P < .001). These strain measurements were significantly correlated with distensibility coefficient and intima–media thickness, respectively (r = 0.30-0.56, all P < .001). Similar values of the areas under the receiver operating characteristic curves were obtained among Framingham risk score (0.70 ± 0.05), SR (0.67 ± 0.05), and strain (0.73 ± 0.05). Conclusion This study demonstrated that the elastic properties of the carotid artery wall were directly characterized by using SR imaging in patients with CAD. The elastic properties of the carotid arterial wall have not been directly characterized in the clinical setting. Strain rate (SR) imaging is a newly developed echocardiographic method developed for imaging the tissue motion of the myocardium. The purpose of this study was to directly estimate the elastic properties of the carotid artery by using SR imaging in patients with coronary artery disease (CAD). A total of 135 patients with CAD, 15 age-matched controls, and 35 young healthy subjects had a carotid ultrasound examination for measuring the values of SR and strain of the carotid artery. The intima–media thickness and distensibility coefficient of the carotid artery were estimated. Age and Framingham risk score were significantly related to SR and strain, respectively (r = 0.62-0.67, all P < .001). These strain measurements were significantly correlated with distensibility coefficient and intima–media thickness, respectively (r = 0.30-0.56, all P < .001). Similar values of the areas under the receiver operating characteristic curves were obtained among Framingham risk score (0.70 ± 0.05), SR (0.67 ± 0.05), and strain (0.73 ± 0.05). This study demonstrated that the elastic properties of the carotid artery wall were directly characterized by using SR imaging in patients with CAD." @default.
• W1967599242 created "2016-06-24" @default.
• W1967599242 creator A5003445971 @default.
• W1967599242 creator A5005228857 @default.
• W1967599242 creator A5005452034 @default.
• W1967599242 creator A5010287069 @default.
• W1967599242 creator A5019255933 @default.
• W1967599242 creator A5026433163 @default.
• W1967599242 creator A5031576241 @default.
• W1967599242 creator A5042157864 @default.
• W1967599242 creator A5047901729 @default.
• W1967599242 creator A5063758316 @default.
• W1967599242 creator A5077074817 @default.
• W1967599242 creator A5091836543 @default.
• W1967599242 date "2009-12-01" @default.
• W1967599242 modified "2023-09-27" @default.
• W1967599242 title "Direct Measurement of Wall Stiffness for Carotid Arteries by Ultrasound Strain Imaging" @default.
• W1967599242 cites W1509893832 @default.
• W1967599242 cites W1963763179 @default.
• W1967599242 cites W1977803453 @default.
• W1967599242 cites W1982985770 @default.
• W1967599242 cites W1985220884 @default.
• W1967599242 cites W1987196138 @default.
• W1967599242 cites W1989958698 @default.
• W1967599242 cites W2023169363 @default.
• W1967599242 cites W2041871556 @default.
• W1967599242 cites W2054181865 @default.
• W1967599242 cites W2068896421 @default.
• W1967599242 cites W2071010874 @default.
• W1967599242 cites W2079618196 @default.
• W1967599242 cites W2093202564 @default.
• W1967599242 cites W2096237016 @default.
• W1967599242 cites W2109926340 @default.
• W1967599242 cites W2112589323 @default.
• W1967599242 cites W2130480628 @default.
• W1967599242 cites W2134343469 @default.
• W1967599242 cites W2134756264 @default.
• W1967599242 cites W2144120465 @default.
• W1967599242 cites W2147994802 @default.
• W1967599242 cites W2153071774 @default.
• W1967599242 cites W2153355322 @default.
• W1967599242 cites W2153759221 @default.
• W1967599242 cites W2161924597 @default.
• W1967599242 cites W2165884492 @default.
• W1967599242 cites W2324841714 @default.
• W1967599242 cites W2335072460 @default.
• W1967599242 doi "https://doi.org/10.1016/j.echo.2009.09.011" @default.
• W1967599242 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/19880276" @default.
• W1967599242 hasPublicationYear "2009" @default.
• W1967599242 type Work @default.
• W1967599242 sameAs 1967599242 @default.
• W1967599242 citedByCount "39" @default.
• W1967599242 countsByYear W19675992422012 @default.
• W1967599242 countsByYear W19675992422013 @default.
• W1967599242 countsByYear W19675992422014 @default.
• W1967599242 countsByYear W19675992422015 @default.
• W1967599242 countsByYear W19675992422016 @default.
• W1967599242 countsByYear W19675992422018 @default.
• W1967599242 countsByYear W19675992422019 @default.
• W1967599242 countsByYear W19675992422020 @default.
• W1967599242 countsByYear W19675992422021 @default.
• W1967599242 countsByYear W19675992422022 @default.
• W1967599242 countsByYear W19675992422023 @default.
• W1967599242 crossrefType "journal-article" @default.
• W1967599242 hasAuthorship W1967599242A5003445971 @default.
• W1967599242 hasAuthorship W1967599242A5005228857 @default.
• W1967599242 hasAuthorship W1967599242A5005452034 @default.
• W1967599242 hasAuthorship W1967599242A5010287069 @default.
• W1967599242 hasAuthorship W1967599242A5019255933 @default.
• W1967599242 hasAuthorship W1967599242A5026433163 @default.
• W1967599242 hasAuthorship W1967599242A5031576241 @default.
• W1967599242 hasAuthorship W1967599242A5042157864 @default.
• W1967599242 hasAuthorship W1967599242A5047901729 @default.
• W1967599242 hasAuthorship W1967599242A5063758316 @default.
• W1967599242 hasAuthorship W1967599242A5077074817 @default.
• W1967599242 hasAuthorship W1967599242A5091836543 @default.
• W1967599242 hasConcept C126322002 @default.
• W1967599242 hasConcept C126838900 @default.
• W1967599242 hasConcept C143753070 @default.
• W1967599242 hasConcept C149342994 @default.
• W1967599242 hasConcept C164705383 @default.
• W1967599242 hasConcept C191897082 @default.
• W1967599242 hasConcept C192562407 @default.
• W1967599242 hasConcept C2776820930 @default.
• W1967599242 hasConcept C2778011828 @default.
• W1967599242 hasConcept C2778022156 @default.
• W1967599242 hasConcept C2778213512 @default.
• W1967599242 hasConcept C2987047532 @default.
• W1967599242 hasConcept C58471807 @default.
• W1967599242 hasConcept C71924100 @default.
• W1967599242 hasConceptScore W1967599242C126322002 @default.
• W1967599242 hasConceptScore W1967599242C126838900 @default.
• W1967599242 hasConceptScore W1967599242C143753070 @default.
• W1967599242 hasConceptScore W1967599242C149342994 @default.
• W1967599242 hasConceptScore W1967599242C164705383 @default.
• W1967599242 hasConceptScore W1967599242C191897082 @default.
• W1967599242 hasConceptScore W1967599242C192562407 @default.
• W1967599242 hasConceptScore W1967599242C2776820930 @default.

• next