scholarly article | Q13442814 |
P356 | DOI | 10.1016/S0167-5273(02)00471-0 |
P698 | PubMed publication ID | 12767539 |
P2093 | author name string | Peter Hanrath | |
Andreas H Mahnken | |||
Rainer Hoffmann | |||
Stefan Krüger | |||
Anil M Sinha | |||
Anja Borghans | |||
Katrin Dedden | |||
P2860 | cites work | Non-invasive characterisation of coronary lesion morphology by multi-slice computed tomography: a promising new technology for risk stratification of patients with coronary artery disease | Q30542175 |
Detection of coronary artery stenoses by contrast-enhanced, retrospectively electrocardiographically-gated, multislice spiral computed tomography | Q33182060 | ||
Exercise echocardiography for the evaluation of patients after nonsurgical coronary artery revascularization | Q39413240 | ||
A call for provisional stenting: the balloon is back! | Q41756508 | ||
Cardiac imaging by means of electrocardiographically gated multisection spiral CT: initial experience. | Q52071990 | ||
Comparison of QCA systems. | Q52258186 | ||
Mechanisms of restenosis and redilation within coronary stents--quantitative angiographic assessment | Q70625425 | ||
Non-invasive assessment of coronary Palmaz-Schatz stents by contrast enhanced electron beam computed tomography | Q71762121 | ||
[Dobutamine stress echocardiography for assessment of intracoronary stent implantation] | Q73093597 | ||
Coronary arterial stent patency: assessment with electron-beam CT | Q73441879 | ||
Usefulness of CT angiography with volume rendering after carotid angioplasty and stenting | Q73508348 | ||
Usefulness of exercise tomographic myocardial perfusion imaging for detection of restenosis after coronary stent implantation | Q73835408 | ||
Coronary angiography with multi-slice computed tomography | Q74517268 | ||
The impact of high pressure vs low pressure stent implantation on intimal hyperplasia and follow-up lumen dimensions; results of a randomized trial | Q74626012 | ||
Usefulness of multislice spiral computed tomography angiography for determination of coronary artery stenoses | Q77156365 | ||
Accuracy of single-photon emission computed tomography myocardial perfusion imaging in patients with stents in native coronary arteries | Q77442964 | ||
P433 | issue | 2-3 | |
P407 | language of work or name | English | Q1860 |
P921 | main subject | spiral computed tomography | Q3260185 |
P304 | page(s) | 167-172 | |
P577 | publication date | 2003-06-01 | |
P1433 | published in | International Journal of Cardiology | Q2357863 |
P1476 | title | Multislice spiral computed tomography for the detection of coronary stent restenosis and patency. | |
P478 | volume | 89 |
Q51308368 | 64-slice multidetector coronary CT angiography: in vitro evaluation of 68 different stents. |
Q42252189 | A new approach to the assessment of lumen visibility of coronary artery stent at various heart rates using 64-slice MDCT. |
Q51666975 | Assessment of coronary artery stent patency by electron-beam CT. |
Q35771844 | Assessment of coronary artery stents by 16 slice computed tomography |
Q51540499 | Assessment of coronary artery stents using 16-slice MDCT angiography: evaluation of a dedicated reconstruction kernel and a noise reduction filter. |
Q39549561 | CT Imaging of Coronary Stents: Past, Present, and Future |
Q36635169 | Cardiac CT: coronary arteries and beyond |
Q51534874 | Comparison between different kernel reformatting filters in 3D quantitative analysis of MDCT coronary angiography. |
Q41788532 | Comparison of 16-slice computed tomography with conventional angiography to evaluate coronary artery stent patency |
Q51777796 | Comparison of reconstruction intervals in routine ECG-pulsed 64-row-MSCT coronary angiography in frequency controlled patients. |
Q36343861 | Coronary CT angiography: current status and continuing challenges |
Q36003267 | Coronary Stent Artifact Reduction with an Edge-Enhancing Reconstruction Kernel - A Prospective Cross-Sectional Study with 256-Slice CT. |
Q51088366 | Coronary artery stent geometry and in-stent contrast attenuation with 64-slice computed tomography. |
Q51585435 | Coronary stent imaging with multidetector row computed tomography. |
Q51190854 | Diagnostic accuracy of 16-slice multidetector-row CT for detection of in-stent restenosis vs detection of stenosis in nonstented coronary arteries. |
Q50979928 | Diagnostic accuracy of 64-slice CT in the assessment of coronary stents. |
Q39756870 | Evaluation of various image reconstruction parameters in lower extremity stents using multidetector-row CT angiography: initial findings |
Q53110944 | First in vivo head-to-head comparison of high-definition versus standard-definition stent imaging with 64-slice computed tomography. |
Q50937005 | In vitro evaluation of coronary stents and in-stent stenosis using a dynamic cardiac phantom and a 64-detector row CT scanner. |
Q51137058 | In vitro evaluation of metallic coronary artery stents with sub-millimeter multi-slice computed tomography using an ECG-gated cardiac phantom: relationship between in-stent visualization and stent type. |
Q41894882 | In-vitro assessment of coronary artery stents in 256-multislice computed tomography angiography |
Q48052720 | Influence of cardiac motion on stent lumen visualization in third generation dual-source CT employing a pulsatile heart model. |
Q36164837 | Multislice spiral computed tomography of the heart: technique, current applications, and perspective |
Q53059501 | Next generation coronary CT angiography: in vitro evaluation of 27 coronary stents. |
Q37022963 | Noninvasive cardiac imaging with computed tomography |
Q51330040 | PTA versus carbofilm-coated stents in infrapopliteal arteries: pilot study. |
Q40037576 | Surveillance imaging after intracranial stent implantation: non-invasive imaging compared with digital subtraction angiography |
Q36304361 | Technology insight: possible applications of multislice computed tomography in clinical cardiology |
Q36902445 | The current status of multislice computed tomography in the diagnosis and prognosis of coronary artery disease |
Q47413643 | Update on multidetector coronary CT angiography of coronary stents: in vitro evaluation of 29 different stent types with dual-source CT. |
Search more.