Egyszerű nézet

dc.contributor.author Celeng, Csilla
dc.contributor.author Vadvala H
dc.contributor.author Puchner S
dc.contributor.author Pursnani A
dc.contributor.author Sharma U
dc.contributor.author Kovács, Attila
dc.contributor.author Maurovich-Horvat, Pál
dc.contributor.author Hoffmann U
dc.contributor.author Ghoshhajra B
dc.date.accessioned 2018-08-10T06:44:47Z
dc.date.available 2018-08-10T06:44:47Z
dc.date.issued 2016
dc.identifier 84953837439
dc.identifier.citation pagination=91-100; journalVolume=32; journalIssueNumber=1; journalTitle=INTERNATIONAL JOURNAL OF CARDIOVASCULAR IMAGING;
dc.identifier.uri http://repo.lib.semmelweis.hu//handle/123456789/5786
dc.identifier.uri doi:10.1007/s10554-015-0755-2
dc.description.abstract To define the optimal systolic phase for dual-source computed tomography angiography using an absolute reconstruction delay time after the R-R interval based on the coronary artery motion, we analyzed images reconstructed between 200 and 420 miliseconds (ms) after the R wave at 20 ms increments in 21 patients. Based on the American Heart Association coronary segmentation guidelines, the origin of six coronary artery landmarks (RCA, AM1, PDA, LM, OM1, and D2) were selected to calculate the coronary artery motion velocity. The velocity of the given landmark was defined as the quotient of the route and the length of the time interval. The x, y and z-coordinates of the selected landmark were recorded, and were used for the calculation of the 3D route of coronary artery motion by using a specific equation. Differences in velocities were assessed by analysis of variance for repeated measures; Bonferroni post hoc tests were used for multiple pair wise comparisons. 1488 landmarks were measured (6 locations at 12 systolic time points) in 21 patients and were analyzed. The mean values of the minimum velocities were calculated separately for each heart rate group (i.e. <65; 65-80; and >80 bpm). The mean lowest coronary artery velocities in each segment occurred in the middle period of each time interval of the acquired systolic phase i.e. 280-340 ms. No differences were found in the minimal coronary artery velocities between the three HR groups, with the exception of the AM1 branch (p = 0.00495) between <65 and >80 bpm (p = 0.03), and at HRs of 65-80 versus >80 bpm (p = 0.006). During an absolute delay of 200-420 ms after the R-wave, the ideal reconstruction interval varies significantly among coronary artery segments. Decreased velocities occur between 280 to 340 ms. Therefore a narrow range of systolic intervals, rather than a single phase, should be acquired.
dc.relation.ispartof urn:issn:1569-5794
dc.title Defining the optimal systolic phase targets using absolute delay time for reconstructions in dual-source coronary CT angiography.
dc.type Journal Article
dc.date.updated 2018-07-13T07:30:57Z
dc.language.rfc3066 en
dc.identifier.mtmt 2935868
dc.identifier.wos 000367856700010
dc.identifier.pubmed 26335369
dc.contributor.department MTA-SE Lendület Kardiovaszkuláris Képalkotó Kutatócsoport [2017.10.31]
dc.contributor.institution Semmelweis Egyetem


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