FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2568691036> ?p ?o ?g. }

• W2568691036 endingPage "971" @default.
• W2568691036 startingPage "967" @default.
• W2568691036 abstract "Subsets of patients with a remote history of Kawasaki disease (KD) have coronary artery aneurysms with associated risks of late morbidity. In a pilot study, we previously showed that computed tomography (CT) coronary artery calcium (CAC) scoring detects late CAC in patients with aneurysms and a remote history of KD. We performed CT calcium volume scoring in 166 subjects (median age 19.5 years) with a remote history of KD (median interval from KD to CT 15.1 years). Coronary arteries were classified as normal (n = 100), transiently dilated (n = 23), persistently dilated (n = 10), remodeled aneurysm (n = 9), or aneurysm (n = 24) based on echocardiography. All subjects with coronary arteries classified as normal, persistently dilated, or remodeled aneurysm had zero CAC. Of the 24 subjects with coronary aneurysms, all but 5 had CAC (median volume 542 mm3; range 17 to 8,218 mm3). For subjects imaged ≥9 years after their acute KD (n = 144), the presence of CAC had a sensitivity of 95% and a specificity of 100% for detecting coronary artery abnormalities (defined as coronary artery aneurysm and/or stenosis). In conclusion, coronary calcification was not observed in subjects with a history of KD who had normal coronary arteries by echocardiography during the acute phase. Coronary calcification, which may be severe, occurs late in patients with coronary aneurysms. Therefore, CAC scanning may be a useful tool to screen patients with a remote history of KD or suspected KD and unknown coronary artery status. Subsets of patients with a remote history of Kawasaki disease (KD) have coronary artery aneurysms with associated risks of late morbidity. In a pilot study, we previously showed that computed tomography (CT) coronary artery calcium (CAC) scoring detects late CAC in patients with aneurysms and a remote history of KD. We performed CT calcium volume scoring in 166 subjects (median age 19.5 years) with a remote history of KD (median interval from KD to CT 15.1 years). Coronary arteries were classified as normal (n = 100), transiently dilated (n = 23), persistently dilated (n = 10), remodeled aneurysm (n = 9), or aneurysm (n = 24) based on echocardiography. All subjects with coronary arteries classified as normal, persistently dilated, or remodeled aneurysm had zero CAC. Of the 24 subjects with coronary aneurysms, all but 5 had CAC (median volume 542 mm3; range 17 to 8,218 mm3). For subjects imaged ≥9 years after their acute KD (n = 144), the presence of CAC had a sensitivity of 95% and a specificity of 100% for detecting coronary artery abnormalities (defined as coronary artery aneurysm and/or stenosis). In conclusion, coronary calcification was not observed in subjects with a history of KD who had normal coronary arteries by echocardiography during the acute phase. Coronary calcification, which may be severe, occurs late in patients with coronary aneurysms. Therefore, CAC scanning may be a useful tool to screen patients with a remote history of KD or suspected KD and unknown coronary artery status." @default.
• W2568691036 created "2017-01-13" @default.
• W2568691036 creator A5002939956 @default.
• W2568691036 creator A5048308230 @default.
• W2568691036 creator A5065297743 @default.
• W2568691036 creator A5079665496 @default.
• W2568691036 creator A5087843870 @default.
• W2568691036 creator A5089502168 @default.
• W2568691036 date "2017-04-01" @default.
• W2568691036 modified "2023-10-15" @default.
• W2568691036 title "Usefulness of Calcium Scoring as a Screening Examination in Patients With a History of Kawasaki Disease" @default.
• W2568691036 cites W1453335796 @default.
• W2568691036 cites W1982392960 @default.
• W2568691036 cites W1984958570 @default.
• W2568691036 cites W1985991902 @default.
• W2568691036 cites W1993447095 @default.
• W2568691036 cites W1994294891 @default.
• W2568691036 cites W2002615127 @default.
• W2568691036 cites W2039242594 @default.
• W2568691036 cites W2044242244 @default.
• W2568691036 cites W2063593821 @default.
• W2568691036 cites W2133211347 @default.
• W2568691036 cites W2340087648 @default.
• W2568691036 doi "https://doi.org/10.1016/j.amjcard.2016.11.055" @default.
• W2568691036 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/5348258" @default.
• W2568691036 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/28193446" @default.
• W2568691036 hasPublicationYear "2017" @default.
• W2568691036 type Work @default.
• W2568691036 sameAs 2568691036 @default.
• W2568691036 citedByCount "21" @default.
• W2568691036 countsByYear W25686910362018 @default.
• W2568691036 countsByYear W25686910362019 @default.
• W2568691036 countsByYear W25686910362020 @default.
• W2568691036 countsByYear W25686910362021 @default.
• W2568691036 countsByYear W25686910362022 @default.
• W2568691036 countsByYear W25686910362023 @default.
• W2568691036 crossrefType "journal-article" @default.
• W2568691036 hasAuthorship W2568691036A5002939956 @default.
• W2568691036 hasAuthorship W2568691036A5048308230 @default.
• W2568691036 hasAuthorship W2568691036A5065297743 @default.
• W2568691036 hasAuthorship W2568691036A5079665496 @default.
• W2568691036 hasAuthorship W2568691036A5087843870 @default.
• W2568691036 hasAuthorship W2568691036A5089502168 @default.
• W2568691036 hasBestOaLocation W25686910362 @default.
• W2568691036 hasConcept C126322002 @default.
• W2568691036 hasConcept C126838900 @default.
• W2568691036 hasConcept C164705383 @default.
• W2568691036 hasConcept C2776055304 @default.
• W2568691036 hasConcept C2776098176 @default.
• W2568691036 hasConcept C2776820930 @default.
• W2568691036 hasConcept C2778213512 @default.
• W2568691036 hasConcept C2778742706 @default.
• W2568691036 hasConcept C2780309369 @default.
• W2568691036 hasConcept C2781179581 @default.
• W2568691036 hasConcept C2781423770 @default.
• W2568691036 hasConcept C71924100 @default.
• W2568691036 hasConceptScore W2568691036C126322002 @default.
• W2568691036 hasConceptScore W2568691036C126838900 @default.
• W2568691036 hasConceptScore W2568691036C164705383 @default.
• W2568691036 hasConceptScore W2568691036C2776055304 @default.
• W2568691036 hasConceptScore W2568691036C2776098176 @default.
• W2568691036 hasConceptScore W2568691036C2776820930 @default.
• W2568691036 hasConceptScore W2568691036C2778213512 @default.
• W2568691036 hasConceptScore W2568691036C2778742706 @default.
• W2568691036 hasConceptScore W2568691036C2780309369 @default.
• W2568691036 hasConceptScore W2568691036C2781179581 @default.
• W2568691036 hasConceptScore W2568691036C2781423770 @default.
• W2568691036 hasConceptScore W2568691036C71924100 @default.
• W2568691036 hasIssue "7" @default.
• W2568691036 hasLocation W25686910361 @default.
• W2568691036 hasLocation W25686910362 @default.
• W2568691036 hasLocation W25686910363 @default.
• W2568691036 hasLocation W25686910364 @default.
• W2568691036 hasLocation W25686910365 @default.
• W2568691036 hasOpenAccess W2568691036 @default.
• W2568691036 hasPrimaryLocation W25686910361 @default.
• W2568691036 hasRelatedWork W1975623362 @default.
• W2568691036 hasRelatedWork W1976829468 @default.
• W2568691036 hasRelatedWork W1979511729 @default.
• W2568691036 hasRelatedWork W2033112127 @default.
• W2568691036 hasRelatedWork W2170839029 @default.
• W2568691036 hasRelatedWork W2326372900 @default.
• W2568691036 hasRelatedWork W2430647560 @default.
• W2568691036 hasRelatedWork W2588144338 @default.
• W2568691036 hasRelatedWork W305832162 @default.
• W2568691036 hasRelatedWork W3080912939 @default.
• W2568691036 hasVolume "119" @default.
• W2568691036 isParatext "false" @default.
• W2568691036 isRetracted "false" @default.
• W2568691036 magId "2568691036" @default.
• W2568691036 workType "article" @default.