about
Advances in myocardial CT perfusion imaging technologyAdvances in stress cardiac MRI and computed tomography.State-of-the-art CT imaging techniques for congenital heart disease.Joint reconstruction of multi-channel, spectral CT data via constrained total nuclear variation minimizationCoronary computed tomography angiography with a consistent dose below 1 mSv using prospectively electrocardiogram-triggered high-pitch spiral acquisition.The ascending aortic image quality and the whole aortic radiation dose of high-pitch dual-source CT angiographyDiagnostic accuracy of coronary CT angiography combined with dual-energy myocardial perfusion imaging for detection of myocardial infarctionDual source multidetector CT-angiography before Transcatheter Aortic Valve Implantation (TAVI) using a high-pitch spiral acquisition mode.High-pitch dual-source CT coronary angiography: analysis of the impact on image quality of altered electrocardiography waves during data acquisition.Distinguishing enhancing from nonenhancing renal masses with dual-source dual-energy CT: iodine quantification versus standard enhancement measurements.Utility of the iodine overlay technique and virtual nonenhanced images for the preoperative T staging of colorectal cancer by dual-energy CT with tin filter technologyAssessment of left ventricular function and volume in patients undergoing 128-slice coronary CT angiography with ECG-based maximum tube current modulation: a comparison with echocardiographySpectra of clinical CT scanners using a portable Compton spectrometer.CT radiation dose optimization and estimation: an update for radiologists.Radiation dose reduction in computed tomography: techniques and future perspective.Automated cortical bone segmentation for multirow-detector CT imaging with validation and application to human studies.Dual-energy CT angiography for the diagnosis of intracranial dural arteriovenous fistula.Organ doses for reference pediatric and adolescent patients undergoing computed tomography estimated by Monte Carlo simulationSCCT guidelines on radiation dose and dose-optimization strategies in cardiovascular CT.High-resolution CT vascular imaging using blood pool contrast agents.Evaluation of virtual unenhanced CT obtained from dual-energy CT urography for detecting urinary stones.Dual-energy computed tomography for detection of coronary artery disease.Four-dimensional real-time cine images of wrist joint kinematics using dual source CT with minimal time increment scanningEffectiveness of Using Dual-source CT and the Upshot it creates on Both Heart Rate and Image Quality.Advanced abdominal imaging with dual energy CT is feasible without increasing radiation dose.Monitoring targeted therapy using dual-energy CT: semi-automatic RECIST plus supplementary functional information by quantifying iodine uptake of melanoma metastases.Iodine quantification with dual-energy CT: phantom study and preliminary experience with VX2 residual tumour in rabbits after radiofrequency ablation.A novel CT imaging system with adjacent double X-ray sources.Design and characterization of a spatially distributed multibeam field emission x-ray source for stationary digital breast tomosynthesis.Pathophysiology of coronary artery disease: the case for multiparametric imaging.Transcatheter aortic valve implantation and potential role of 3D imaging.CT pulmonary angiography: simultaneous low-pitch dual-source acquisition mode with 70 kVp and 40 ml of contrast medium and comparison with high-pitch spiral dual-source acquisition with automated tube potential selectionNewer CT applications and their alternatives: what is appropriate in children?Dual-energy lung perfusion and ventilation CT in children.Dual energy MDCT assessment of renal lesions: an overview.Invited review-Computed tomographic angiography (CTA) of the thoracic cardiovascular system in companion animals.Dual-energy computed tomography (DECT) in emergency radiology: basic principles, techniques, and limitations.Technical limitations of dual-energy CT in neuroradiology: 30-month institutional experience and review of literature.Comprehensive evaluation of coronary artery disease and aortic atherosclerosis in acute ischemic stroke patients: usefulness based on Framingham risk score and stroke subtype.Motion Compensation in the Region of the Coronary Arteries based on Partial Angle Reconstructions from Short Scan CT Data.
P2860
Q28077593-1BC29E00-3E03-4965-BF70-FC72833D6375Q30412128-F684C67A-5794-480B-A8E9-92083605F007Q30492579-F4BC1CB6-587F-4AF0-8866-26CCCAFC7872Q30888851-E87B2C08-C098-4C23-B220-882949AC39DFQ33515521-D8FE2CFD-EB63-40C9-96A2-9ECB9C320EE0Q33644007-F08755C0-45E5-4FC8-8C5B-2BE627B83B06Q33846956-239793B8-B5E7-46C4-94DD-CE6224E77187Q33993815-4386BD54-B19E-4091-98B2-FDC38327B123Q34301815-4754DE40-FBC7-48C0-B287-95B69CC01D37Q34616401-3091A932-79FE-460F-B163-830A743248AAQ34625027-8086F3A3-E28C-4947-B2DA-21355E5D3A1FQ34641961-8A326656-2DF1-458D-AA37-5060CD024819Q35592346-8F787DE2-66AC-4C18-B2A7-C2FB370F45B5Q35659717-0928E133-658F-4068-B6C1-F2B752D02FD1Q35733668-9C9A8DA1-A85C-4756-B633-E5B602EA7214Q35842283-9311BED5-7F1F-4753-B503-C4F1324D64F8Q35870917-3B337730-7A4A-45AE-B7AD-316BFCADC132Q35888062-24F47B4B-9C1D-45F7-ADC0-FBEA68CB1A32Q36080013-A6FF42B5-9276-4B09-81C5-8792A906C62EQ36119292-E9E74416-340C-4A95-964B-E1F1D0851E95Q36326215-274C6BB8-D866-4F53-ABD6-6CDCB3695FD9Q36700577-2FD3C27F-973F-4621-BD51-2518B7BD4A32Q36872945-17330DF2-2FE6-4244-AA51-A22CA901F80BQ36983699-E915F19A-6560-4430-9781-B29EE87D48F0Q37024623-ADDD4317-0D38-4646-8B08-960DB391F7B3Q37034519-C8BEDA13-7DF7-4AC5-83CD-261EF671D4DBQ37127136-CD07E6F7-BCCE-4060-9D55-D9B9BFD0A67BQ37358337-8569A713-0AEE-48D2-9E3B-E2F29FC014E5Q37408479-8161FF81-0CA5-47DB-9E10-B9F4165FC1DFQ37417701-4EC3F01A-DA5D-4C1B-A52A-71DC075F0BA2Q37538741-3508EBFA-1627-4B59-A120-C8A2532B3BB1Q37601133-9BCC5EB0-B927-4204-8D3D-9851BA4DD9C0Q37918950-F2183392-6BC2-4185-8D6E-64DA5855162EQ38082373-627DF41E-F9EB-45CF-9993-A3F670B771B3Q38149002-EAC097BA-F717-46FB-8D5C-ACC339AD2768Q38189103-D1085ABB-6E35-4A1C-9881-E9C4E0FEFE01Q38199997-CEF1E3AF-371D-4161-8E95-AB6CACCB0853Q38222058-AC60BC54-B7E9-4778-B857-45A4A02BC981Q38475095-D8785148-95A6-4D45-B081-31C40541FB2BQ38627983-ABAFFA5D-1EE8-4B14-8BEF-3B24C8FD9904
P2860
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on 07 October 2008
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Technical principles of dual source CT.
@en
Technical principles of dual source CT.
@nl
type
label
Technical principles of dual source CT.
@en
Technical principles of dual source CT.
@nl
prefLabel
Technical principles of dual source CT.
@en
Technical principles of dual source CT.
@nl
P2093
P1476
Technical principles of dual source CT.
@en
P2093
Bernhard Krauss
Herbert Bruder
Karl Stierstorfer
Martin Petersilka
Thomas G Flohr
P304
P356
10.1016/J.EJRAD.2008.08.013
P577
2008-10-07T00:00:00Z