scholarly article | Q13442814 |
P356 | DOI | 10.1007/S00330-015-4060-1 |
P698 | PubMed publication ID | 26486938 |
P2093 | author name string | Jae Yeon Hwang | |
Ki Seok Choo | |||
Jun Woo Lee | |||
Dong Wook Jeong | |||
Ung Bae Jeon | |||
Tae Un Kim | |||
Tae Yong Moon | |||
Jin Hyeok Kim | |||
Myeong-Ja Yun | |||
Soo Jin Lim | |||
P2860 | cites work | CT venography and compression sonography are diagnostically equivalent: data from PIOPED II. | Q31133980 |
Computed tomographic venography is specific but not sensitive for diagnosis of acute lower-extremity deep venous thrombosis in patients with suspected pulmonary embolus | Q34432457 | ||
Model-based iterative reconstruction: effect on patient radiation dose and image quality in pediatric body CT. | Q34495494 | ||
CT of the chest with model-based, fully iterative reconstruction: comparison with adaptive statistical iterative reconstruction | Q34911200 | ||
Pathogenesis of varicose veins | Q35090115 | ||
Estrogens, progestogens and thrombosis | Q35181580 | ||
Strategies for CT radiation dose optimization | Q35636224 | ||
Role of computed tomography and magnetic resonance imaging for deep venous thrombosis and pulmonary embolism | Q35722778 | ||
Pediatric CT: implementation of ASIR for substantial radiation dose reduction while maintaining pre-ASIR image noise | Q35810970 | ||
Diagnostic assessment of deep vein thrombosis and pulmonary embolism | Q36242069 | ||
CT angiography of pulmonary arteries to detect pulmonary embolism: improvement of vascular enhancement with low kilovoltage settings | Q36657601 | ||
CT venography for deep vein thrombosis using a low tube voltage (100 kVp) setting could increase venous enhancement and reduce the amount of administered iodine | Q36662539 | ||
Model-based iterative reconstruction for reduction of radiation dose in abdominopelvic CT: comparison to adaptive statistical iterative reconstruction | Q36847528 | ||
Iterative reconstruction does not substantially delay CT imaging in an emergency setting | Q36909290 | ||
Abdominal CT with model-based iterative reconstruction (MBIR): initial results of a prospective trial comparing ultralow-dose with standard-dose imaging | Q36945865 | ||
Evaluation of deep vein thrombosis with multidetector row CT after orthopedic arthroplasty: a prospective study for comparison with Doppler sonography | Q37062993 | ||
Is iterative reconstruction ready for MDCT? | Q37425463 | ||
Vascular enhancement and image quality of MDCT pulmonary angiography in 400 cases: comparison of standard and low kilovoltage settings | Q37490497 | ||
Model-based iterative reconstruction versus adaptive statistical iterative reconstruction and filtered back projection in liver 64-MDCT: focal lesion detection, lesion conspicuity, and image noise | Q37612682 | ||
Reducing abdominal CT radiation dose with adaptive statistical iterative reconstruction technique | Q37696947 | ||
New iterative reconstruction techniques for cardiovascular computed tomography: how do they work, and what are the advantages and disadvantages? | Q37923612 | ||
Comparison of hybrid and pure iterative reconstruction techniques with conventional filtered back projection: dose reduction potential in the abdomen | Q38010637 | ||
Model-based iterative reconstruction technique for ultralow-dose computed tomography of the lung: a pilot study | Q38024270 | ||
Radiation dose reduction at multidetector CT with adaptive statistical iterative reconstruction for evaluation of urolithiasis: how low can we go? | Q38034518 | ||
Filtered back projection, adaptive statistical iterative reconstruction, and a model-based iterative reconstruction in abdominal CT: an experimental clinical study. | Q38061400 | ||
Model-based iterative reconstruction and adaptive statistical iterative reconstruction techniques in abdominal CT: comparison of image quality in the detection of colorectal liver metastases | Q38121062 | ||
Adaptive Statistical Iterative Reconstruction: Assessment of Image Noise and Image Quality in Coronary CT Angiography | Q42930052 | ||
Low-dose MDCT and CT enterography of patients with Crohn disease: feasibility of adaptive statistical iterative reconstruction | Q43672478 | ||
Image quality and radiation dose of 128-slice dual-source CT venography using low kilovoltage combined with high-pitch scanning and automatic tube current modulation | Q45748554 | ||
Evaluation of a body mass index-adapted protocol for low-dose 64-MDCT coronary angiography with prospective ECG triggering | Q46113833 | ||
Indirect computed tomography venography of the lower extremities using single-source dual-energy computed tomography: advantage of low-kiloelectron volt monochromatic images | Q47708740 | ||
Estimated case fatality rate of pulmonary embolism, 1979 to 1998. | Q48610193 | ||
Use of Model-Based Iterative Reconstruction (MBIR) in reduced-dose CT for routine follow-up of patients with malignant lymphoma: dose savings, image quality and phantom study. | Q50951106 | ||
Comparing five different iterative reconstruction algorithms for computed tomography in an ROC study. | Q51065542 | ||
Image quality assessment of standard- and low-dose chest CT using filtered back projection, adaptive statistical iterative reconstruction, and novel model-based iterative reconstruction algorithms. | Q51252511 | ||
Deep venous thrombosis of the lower extremity: efficacy of spiral CT venography compared with conventional venography in diagnosis. | Q52888056 | ||
Combined CT pulmonary angiography and venography for diagnosis of pulmonary embolism and deep vein thrombosis: radiation dose. | Q52961112 | ||
Adaptive statistical iterative reconstruction versus filtered back projection in the same patient: 64 channel liver CT image quality and patient radiation dose. | Q53085670 | ||
Vascular enhancement and image quality of CT venography: comparison of standard and low kilovoltage settings. | Q53201058 | ||
Indirect computed tomography venography with a low-tube-voltage technique: reduction in the radiation and contrast material dose--a prospective randomized study. | Q53202010 | ||
Benefit of CT venography for the diagnosis of thromboembolic disease. | Q53475124 | ||
Individual modulation of the tube current-seconds to achieve similar levels of image noise in contrast-enhanced abdominal CT. | Q53586754 | ||
Deep venous thrombosis: detection by using indirect CT venography. The Pulmonary Angiography-Indirect CT Venography Cooperative Group. | Q64922095 | ||
Optimization of combined CT pulmonary angiography with lower extremity CT venography | Q73339901 | ||
Evaluation of the deep venous system in patients with suspected pulmonary embolism with multi-detector CT: a prospective study in comparison to Doppler sonography | Q73497318 | ||
Combined CT venography and pulmonary angiography: how much venous enhancement is routinely obtained? | Q73781898 | ||
Deep vein thrombosis | Q81584045 | ||
Iterative reconstruction methods in two different MDCT scanners: physical metrics and 4-alternative forced-choice detectability experiments--a phantom approach | Q83176851 | ||
A low-kilovolt (peak) high-tube current technique improves venous enhancement and reduces the radiation dose at indirect multidetector-row CT venography: initial experience | Q83232382 | ||
Evaluation of deep vein thrombosis with reduced radiation and contrast material dose at computed tomography venography: clinical application of a combined iterative reconstruction and low-tube-voltage technique | Q84564046 | ||
Abdominal CT: Comparison of Low-Dose CT With Adaptive Statistical Iterative Reconstruction and Routine-Dose CT With Filtered Back Projection in 53 Patients | Q84784134 | ||
Computed tomographic venography for varicose veins of the lower extremities: prospective comparison of 80-kVp and conventional 120-kVp protocols | Q84998828 | ||
Dose reduction with adaptive statistical iterative reconstruction for paediatric CT: phantom study and clinical experience on chest and abdomen CT | Q87343646 | ||
P433 | issue | 7 | |
P407 | language of work or name | English | Q1860 |
P921 | main subject | statistics | Q12483 |
venography | Q1363390 | ||
P304 | page(s) | 2055-2063 | |
P577 | publication date | 2015-10-20 | |
P1433 | published in | European Radiology | Q5413071 |
P1476 | title | Comparison of the image qualities of filtered back-projection, adaptive statistical iterative reconstruction, and model-based iterative reconstruction for CT venography at 80 kVp. | |
P478 | volume | 26 |
Q92219625 | A Soft-Threshold Filtering Approach for Tomography Reconstruction from a Limited Number of Projections with Bilateral Edge Preservation |
Q48161713 | Diagnostic performance of reduced-dose CT with a hybrid iterative reconstruction algorithm for the detection of hypervascular liver lesions: a phantom study |
Q47364056 | Effect of an Arm Traction Device on Image Quality and Radiation Exposure during Neck CT: A Prospective Study. |
Q91599726 | Image Quality and Radiation Dose in CT Venography Using Model-Based Iterative Reconstruction at 80 kVp versus Adaptive Statistical Iterative Reconstruction-V at 70 kVp |
Q51832807 | Image quality and radiation dose of CT venography with double dose reduction using model based iterative reconstruction: comparison with conventional CT venography using filtered back projection. |
Q87744941 | Impact of model-based iterative reconstruction on low-contrast lesion detection and image quality in abdominal CT: a 12-reader-based comparative phantom study with filtered back projection at different tube voltages |
Q50117901 | Improved detectability of thromboses of the lower limb using low kilovoltage computed tomography |
Q36143173 | Indirect CT Venography at 80 kVp with Sinogram-Affirmed Iterative Reconstruction Compared to 120 kVp with Filtered Back Projection: Assessment of Image Quality and Radiation Dose |
Q90452675 | Low-tube-voltage combined with adaptive statistical iterative reconstruction-V technique in CT venography of lower limb deep vein thrombosis |
Q51737222 | The combination of a reduction in contrast agent dose with low tube voltage and an adaptive statistical iterative reconstruction algorithm in CT enterography: Effects on image quality and radiation dose. |
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