Non-invasive CT-derived fractional flow reserve and static rest and stress CT myocardial perfusion imaging for detection of haemodynamically significant coronary stenosis

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Standard

Non-invasive CT-derived fractional flow reserve and static rest and stress CT myocardial perfusion imaging for detection of haemodynamically significant coronary stenosis. / Ko, Brian S; Linde, Jesper J; Ihdayhid, Abdul-Rahman; Norgaard, Bjarne L; Kofoed, Klaus F; Sørgaard, Mathias; Adams, Daniel; Crossett, Marcus; Cameron, James D; Seneviratne, Sujith K.

I: International Journal of Cardiovascular Imaging, Bind 35, Nr. 11, 2019, s. 2103-2112.

Publikation: Bidrag til tidsskrift › Tidsskriftartikel › Forskning › fagfællebedømt

Harvard

Ko, BS, Linde, JJ, Ihdayhid, A-R, Norgaard, BL, Kofoed, KF, Sørgaard, M, Adams, D, Crossett, M, Cameron, JD & Seneviratne, SK 2019, 'Non-invasive CT-derived fractional flow reserve and static rest and stress CT myocardial perfusion imaging for detection of haemodynamically significant coronary stenosis', International Journal of Cardiovascular Imaging, bind 35, nr. 11, s. 2103-2112. https://doi.org/10.1007/s10554-019-01658-x

APA

Ko, B. S., Linde, J. J., Ihdayhid, A-R., Norgaard, B. L., Kofoed, K. F., Sørgaard, M., Adams, D., Crossett, M., Cameron, J. D., & Seneviratne, S. K. (2019). Non-invasive CT-derived fractional flow reserve and static rest and stress CT myocardial perfusion imaging for detection of haemodynamically significant coronary stenosis. International Journal of Cardiovascular Imaging, 35(11), 2103-2112. https://doi.org/10.1007/s10554-019-01658-x

Vancouver

Ko BS, Linde JJ, Ihdayhid A-R, Norgaard BL, Kofoed KF, Sørgaard M o.a. Non-invasive CT-derived fractional flow reserve and static rest and stress CT myocardial perfusion imaging for detection of haemodynamically significant coronary stenosis. International Journal of Cardiovascular Imaging. 2019;35(11):2103-2112. https://doi.org/10.1007/s10554-019-01658-x

Author

Ko, Brian S ; Linde, Jesper J ; Ihdayhid, Abdul-Rahman ; Norgaard, Bjarne L ; Kofoed, Klaus F ; Sørgaard, Mathias ; Adams, Daniel ; Crossett, Marcus ; Cameron, James D ; Seneviratne, Sujith K. / Non-invasive CT-derived fractional flow reserve and static rest and stress CT myocardial perfusion imaging for detection of haemodynamically significant coronary stenosis. I: International Journal of Cardiovascular Imaging. 2019 ; Bind 35, Nr. 11. s. 2103-2112.

Bibtex

@article{b8473334a0c849649cdd6f31fd7dd5d4,

title = "Non-invasive CT-derived fractional flow reserve and static rest and stress CT myocardial perfusion imaging for detection of haemodynamically significant coronary stenosis",

abstract = "Computed tomography derived fractional flow reserve (FFRCT) and computed tomography stress myocardial perfusion imaging (CTP) are techniques to assess haemodynamic significance of coronary stenosis. To compare the diagnostic performance of FFRCT and static rest/stress CTP in detecting fractional flow reserve (FFR) defined haemodynamically-significant stenosis (FFR ≤ 0.8). Fifty-one patients (96 vessels) with suspected coronary artery disease from a single institution planned for elective invasive-angiography prospectively underwent research indicated 320-detector-CT-coronary-angiography (CTA) and adenosine-stress CTP and invasive FFR. Analyses were performed in separate core-laboratories for FFRCT and CTP blinded to FFR results. Myocardial perfusion was assessed visually and semi-quantitatively by transmural perfusion ratio (TPR). Invasive FFR ≤ 0.8 was present in 33% of vessels and 49% of patients. FFRCT, visual CTP and TPR analysis was feasible in 96%, 92% and 92% of patients respectively. Overall per-vessel sensitivity, specificity and diagnostic accuracy for FFRCT were 81%, 85%, 84%, for visual CTP were 50%, 89%, 75% and for TPR were 69%, 48%, 56% respectively. Receiver-operating-characteristics curve analysis demonstrated larger per vessel area-under-curve (AUC) for FFRCT (0.89) compared with visual CTP (0.70; p < 0.001), TPR (0.58; p < 0.001) and CTA (0.70; p = 0.0007); AUC for CTA + FFRCT (0.91) was higher than CTA + visual CTP (0.77, p = 0.008) and CTA + TPR (0.74, p < 0.001). Per-patient AUC for FFRCT (0.90) was higher than visual CTP (0.69; p = 0.0016), TPR (0.56; p < 0.0001) and CTA (0.68; p = 0.001). Based on this selected cohort of patients FFRCT is superior to visually and semi-quantitatively assessed static rest/stress CTP in detecting haemodynamically-significant coronary stenosis as determined on invasive FFR.",

keywords = "Adenosine/administration & dosage, Aged, Computed Tomography Angiography, Coronary Angiography/methods, Coronary Stenosis/diagnostic imaging, Coronary Vessels/diagnostic imaging, Female, Fractional Flow Reserve, Myocardial, Hemodynamics, Humans, Male, Middle Aged, Multidetector Computed Tomography, Myocardial Perfusion Imaging/methods, Predictive Value of Tests, Prognosis, Reproducibility of Results, Severity of Illness Index, Vasodilator Agents/administration & dosage",

author = "Ko, {Brian S} and Linde, {Jesper J} and Abdul-Rahman Ihdayhid and Norgaard, {Bjarne L} and Kofoed, {Klaus F} and Mathias S{\o}rgaard and Daniel Adams and Marcus Crossett and Cameron, {James D} and Seneviratne, {Sujith K}",

year = "2019",

doi = "10.1007/s10554-019-01658-x",

language = "English",

volume = "35",

pages = "2103--2112",

journal = "International Journal of Cardiovascular Imaging",

issn = "1569-5794",

publisher = "Springer",

number = "11",

}

RIS

TY - JOUR

T1 - Non-invasive CT-derived fractional flow reserve and static rest and stress CT myocardial perfusion imaging for detection of haemodynamically significant coronary stenosis

AU - Ko, Brian S

AU - Linde, Jesper J

AU - Ihdayhid, Abdul-Rahman

AU - Norgaard, Bjarne L

AU - Kofoed, Klaus F

AU - Sørgaard, Mathias

AU - Adams, Daniel

AU - Crossett, Marcus

AU - Cameron, James D

AU - Seneviratne, Sujith K

PY - 2019

Y1 - 2019

N2 - Computed tomography derived fractional flow reserve (FFRCT) and computed tomography stress myocardial perfusion imaging (CTP) are techniques to assess haemodynamic significance of coronary stenosis. To compare the diagnostic performance of FFRCT and static rest/stress CTP in detecting fractional flow reserve (FFR) defined haemodynamically-significant stenosis (FFR ≤ 0.8). Fifty-one patients (96 vessels) with suspected coronary artery disease from a single institution planned for elective invasive-angiography prospectively underwent research indicated 320-detector-CT-coronary-angiography (CTA) and adenosine-stress CTP and invasive FFR. Analyses were performed in separate core-laboratories for FFRCT and CTP blinded to FFR results. Myocardial perfusion was assessed visually and semi-quantitatively by transmural perfusion ratio (TPR). Invasive FFR ≤ 0.8 was present in 33% of vessels and 49% of patients. FFRCT, visual CTP and TPR analysis was feasible in 96%, 92% and 92% of patients respectively. Overall per-vessel sensitivity, specificity and diagnostic accuracy for FFRCT were 81%, 85%, 84%, for visual CTP were 50%, 89%, 75% and for TPR were 69%, 48%, 56% respectively. Receiver-operating-characteristics curve analysis demonstrated larger per vessel area-under-curve (AUC) for FFRCT (0.89) compared with visual CTP (0.70; p < 0.001), TPR (0.58; p < 0.001) and CTA (0.70; p = 0.0007); AUC for CTA + FFRCT (0.91) was higher than CTA + visual CTP (0.77, p = 0.008) and CTA + TPR (0.74, p < 0.001). Per-patient AUC for FFRCT (0.90) was higher than visual CTP (0.69; p = 0.0016), TPR (0.56; p < 0.0001) and CTA (0.68; p = 0.001). Based on this selected cohort of patients FFRCT is superior to visually and semi-quantitatively assessed static rest/stress CTP in detecting haemodynamically-significant coronary stenosis as determined on invasive FFR.

AB - Computed tomography derived fractional flow reserve (FFRCT) and computed tomography stress myocardial perfusion imaging (CTP) are techniques to assess haemodynamic significance of coronary stenosis. To compare the diagnostic performance of FFRCT and static rest/stress CTP in detecting fractional flow reserve (FFR) defined haemodynamically-significant stenosis (FFR ≤ 0.8). Fifty-one patients (96 vessels) with suspected coronary artery disease from a single institution planned for elective invasive-angiography prospectively underwent research indicated 320-detector-CT-coronary-angiography (CTA) and adenosine-stress CTP and invasive FFR. Analyses were performed in separate core-laboratories for FFRCT and CTP blinded to FFR results. Myocardial perfusion was assessed visually and semi-quantitatively by transmural perfusion ratio (TPR). Invasive FFR ≤ 0.8 was present in 33% of vessels and 49% of patients. FFRCT, visual CTP and TPR analysis was feasible in 96%, 92% and 92% of patients respectively. Overall per-vessel sensitivity, specificity and diagnostic accuracy for FFRCT were 81%, 85%, 84%, for visual CTP were 50%, 89%, 75% and for TPR were 69%, 48%, 56% respectively. Receiver-operating-characteristics curve analysis demonstrated larger per vessel area-under-curve (AUC) for FFRCT (0.89) compared with visual CTP (0.70; p < 0.001), TPR (0.58; p < 0.001) and CTA (0.70; p = 0.0007); AUC for CTA + FFRCT (0.91) was higher than CTA + visual CTP (0.77, p = 0.008) and CTA + TPR (0.74, p < 0.001). Per-patient AUC for FFRCT (0.90) was higher than visual CTP (0.69; p = 0.0016), TPR (0.56; p < 0.0001) and CTA (0.68; p = 0.001). Based on this selected cohort of patients FFRCT is superior to visually and semi-quantitatively assessed static rest/stress CTP in detecting haemodynamically-significant coronary stenosis as determined on invasive FFR.

KW - Adenosine/administration & dosage

KW - Aged

KW - Computed Tomography Angiography

KW - Coronary Angiography/methods

KW - Coronary Stenosis/diagnostic imaging

KW - Coronary Vessels/diagnostic imaging

KW - Female

KW - Fractional Flow Reserve, Myocardial

KW - Hemodynamics

KW - Humans

KW - Male

KW - Middle Aged

KW - Multidetector Computed Tomography

KW - Myocardial Perfusion Imaging/methods

KW - Predictive Value of Tests

KW - Prognosis

KW - Reproducibility of Results

KW - Severity of Illness Index

KW - Vasodilator Agents/administration & dosage

U2 - 10.1007/s10554-019-01658-x

DO - 10.1007/s10554-019-01658-x

M3 - Journal article

C2 - 31273632

VL - 35

SP - 2103

EP - 2112

JO - International Journal of Cardiovascular Imaging

JF - International Journal of Cardiovascular Imaging

SN - 1569-5794

IS - 11

ER -

ID: 241827412