Multi-detector row CT attenuation measurements: assessment of intra- and interscanner variability with an anthropomorphic body CT phantom.
about
Quantitative Imaging Biomarkers of NAFLDControlled attenuation parameter for assessment of hepatic steatosis grades: a diagnostic meta-analysisIntra-arterial versus intra venous contrast-enhanced computed tomography of the equine head.Radiologic evaluation of nonalcoholic fatty liver diseaseAdrenal lesions: variability in attenuation over time, between scanners, and between observers.A new technique for noise reduction at coronary CT angiography with multi-phase data-averaging and non-rigid image registration.The use of routine non density calibrated clinical computed tomography data as a potentially useful screening tool for identifying patients with osteoporosis.Quantitative assessment of liver fat with magnetic resonance imaging and spectroscopy.Genitourinary applications of dual-energy CT.Improved CT-based estimate of pulmonary gas trapping accounting for scanner and lung-volume variations in a multicenter asthmatic study.Comparison of attenuation of striated muscle between postmortem and antemortem computed tomography: results of a longitudinal study.Distinguishing enhancing from nonenhancing renal masses with dual-source dual-energy CT: iodine quantification versus standard enhancement measurements.Diagnosing small hepatic cysts on multidetector CT: an additional merit of thinner coronal reformationsNovel anthropomorphic hip phantom corrects systemic interscanner differences in proximal femoral vBMDBrain Swelling and Loss of Gray and White Matter Differentiation in Human Postmortem Cases by Computed TomographyInter-scanner differences in in vivo QCT measurements of the density and strength of the proximal femur remain after correction with anthropomorphic standardization phantoms.Sixty-four MDCT achieves higher contrast in pancreas with optimization of scan time delay.Quantitative computed tomography of the lungs and airways in healthy nonsmoking adultsNoncalcified lung nodules: volumetric assessment with thoracic CTCT Hounsfield numbers of soft tissues on unenhanced abdominal CT scans: variability between two different manufacturers' MDCT scanners.Quantification of hepatic and visceral fat by CT and MR imaging: relevance to the obesity epidemic, metabolic syndrome and NAFLD.Dual energy MDCT assessment of renal lesions: an overview.Landmarks in the diagnosis and treatment of renal cell carcinoma.Use of contrast media in computed tomography and magnetic resonance imaging in horses: Techniques, adverse events and opportunities.Renal cell carcinoma attenuation values on unenhanced CT: importance of multiple, small region-of-interest measurements.The Use of Technology for Estimating Body CompositionStrengths and Weaknesses of Common Modalities in a Clinical Setting [Formula: see text].Computed Tomography Number Measurement Consistency Under Different Beam Hardening Conditions: Comparison Between Dual-Energy Spectral Computed Tomography and Conventional Computed Tomography Imaging in Phantom Experiment.Precision of quantitative computed tomography texture analysis using image filtering: A phantom study for scanner variability.Coronary calcium mass scores measured by identical 64-slice MDCT scanners are comparable: a cardiac phantom study.Acute intracranial hemorrhage in CT: benefits of sinogram-affirmed iterative reconstruction techniques.Automated quantification of epicardial adipose tissue using CT angiography: evaluation of a prototype software.Computed tomographic identification of dysplasia and progression of osteoarthritis in dog elbows previously assigned OFA grades 0 and 1.Differential effect of gender on hepatic fat.Abilities of a Densitometric Analysis of Computed Tomography Images and Hemorrhagic Parameters to Predict Outcome Favorability in Patients With Intracerebral Hemorrhage.Vertebral bone attenuation on low-dose chest CT: quantitative volumetric analysis for bone fragility assessment.Accuracy of computed tomography for detecting hepatic steatosis in donors for liver transplantation: A meta-analysis.Imaging evaluation of non-alcoholic fatty liver disease: focused on quantification.Automatic CT-based finite element model generation for temperature-based death time estimation: feasibility study and sensitivity analysis.A reoperation of thrombosed On-X valve detected by multidetector-row computed tomography.CT-based temperature monitoring during hepatic RF ablation: feasibility in an animal model.
P2860
Q26768664-DAC7503C-A084-43FA-84B2-18AB9C0D4619Q30393929-D60D2D94-B687-4619-8469-AAF250969C65Q30394226-FD508790-168C-4584-AF08-85C4ADCAF312Q30436162-968C145F-42EE-4CF8-A39E-2BF6F82B1836Q30612906-EBFCA687-A6E0-4586-BF7F-624741C220E5Q30842102-A0E96DA8-02AA-4EAD-A389-9CFB50F5D06AQ31147091-488FC0D2-AECD-4F02-9632-377E9132DFCAQ34021973-10E47E1E-5360-49DE-887E-1CB6AF46F42EQ34086799-7E7D1F2A-BE08-4869-B8B2-A7B787AE87A6Q34146921-D544A5A4-64DF-42CD-ADD2-D3D9A8C83220Q34445263-536E0946-D25B-4B9D-B46E-0BB2BEAFD64CQ34616401-FB96E848-AC11-46FB-8025-7AACCC3185BFQ34940722-0F9D0148-C4C8-4F35-9AAC-0917F60B1C09Q35639814-BD5CA236-4FA2-4D7E-8C51-6A6006AB498DQ35855491-7A8C7F3F-390C-4A31-9D0D-B44926FADD59Q36108274-2AB6C478-990E-4B5B-9469-91F77EA5BAB4Q36166558-A68D1802-8CB8-4839-8A2E-D6DE89D8BF1DQ36990683-B2352256-5A1B-4C57-BD34-603C5F1110D6Q37145964-1A57C752-4290-40AD-9298-07B63CD1F502Q37240894-E8AB6271-ED43-4F86-B688-E7B62A41D286Q37601122-B6610C1E-B942-49F1-ABE1-9A2B3C27C0EBQ38149002-66B28F93-11BD-4957-B375-8554CE2FBB38Q38238966-95C4AA8A-40C9-4920-BADA-B2E21F979D59Q38838147-DBBCAD71-C12A-4F6F-9212-04D1C68483C0Q38847047-7EE5B884-157B-435E-827E-915851913090Q39005185-A68998F9-1942-4CBD-9E52-568628B7551DQ40713439-138456A3-7F91-4418-8A18-773881425FC3Q41818429-3F8F80F3-CA3C-4F34-B307-9D5F6150B943Q41929216-F0F14628-0EA4-4D49-8D3C-861D00BF3BCDQ45217578-B39E34C2-BCF5-405E-BC6D-4914B1D7A571Q46460430-D15892A5-4B34-4346-872B-9FE413805A34Q46751076-82EF021C-E08F-4311-B88A-ABC9E741FA3AQ46812269-2DDDB706-3E61-4DC2-954E-6A374BBA5311Q47605942-986A0004-2918-4391-8280-A29F49B6B47CQ48055149-AD32B59E-1CD1-4AF7-B7C5-D281F89C4262Q48127615-E029A216-849A-468B-8CC2-B9342812E6FDQ48217549-1DCA54E8-C1B9-485A-8DBE-BFA4A993897CQ50951593-0EF192F5-3053-4319-80E5-ACB983F256F8Q51013214-CA3E7B02-F14B-4853-AB41-FBDF89A3DD06Q51368992-C7629251-E5DB-48CE-B674-15F299D5FE4F
P2860
Multi-detector row CT attenuation measurements: assessment of intra- and interscanner variability with an anthropomorphic body CT phantom.
description
2007 nî lūn-bûn
@nan
2007年の論文
@ja
2007年学术文章
@wuu
2007年学术文章
@zh
2007年学术文章
@zh-cn
2007年学术文章
@zh-hans
2007年学术文章
@zh-my
2007年学术文章
@zh-sg
2007年學術文章
@yue
2007年學術文章
@zh-hant
name
Multi-detector row CT attenuat ...... thropomorphic body CT phantom.
@en
Multi-detector row CT attenuat ...... thropomorphic body CT phantom.
@nl
type
label
Multi-detector row CT attenuat ...... thropomorphic body CT phantom.
@en
Multi-detector row CT attenuat ...... thropomorphic body CT phantom.
@nl
prefLabel
Multi-detector row CT attenuat ...... thropomorphic body CT phantom.
@en
Multi-detector row CT attenuat ...... thropomorphic body CT phantom.
@nl
P2093
P1433
P1476
Multi-detector row CT attenuat ...... thropomorphic body CT phantom.
@en
P2093
Bernard A Birnbaum
James S Babb
P304
P356
10.1148/RADIOL.2421052066
P407
P577
2007-01-01T00:00:00Z