scholarly article | Q13442814 |
P50 | author | Cristian Badea | Q55345440 |
P2093 | author name string | X Guo | |
D Clark | |||
C A Piantadosi | |||
S M Johnston | |||
C D Marshall | |||
P2860 | cites work | The sensitivity performance of the human eye on an absolute scale | Q79546741 |
Pulmonary perfusion and xenon gas exchange in rats: MR imaging with intravenous injection of hyperpolarized 129Xe | Q24645215 | ||
A reproducible evaluation of ANTs similarity metric performance in brain image registration | Q28741589 | ||
Spektr: a computational tool for x-ray spectral analysis and imaging system optimization | Q31135007 | ||
Lung perfusion imaging in small animals using 4D micro-CT at heartbeat temporal resolution | Q33571721 | ||
Geometric calibration for a dual tube/detector micro-CT system. | Q33603797 | ||
Micro-CT with respiratory and cardiac gating. | Q34327537 | ||
Evaluation of tumor microenvironment in an animal model using a nanoparticle contrast agent in computed tomography imaging | Q34470473 | ||
4D micro-CT for cardiac and perfusion applications with view under sampling | Q35234233 | ||
A dual micro-CT system for small animal imaging | Q35484386 | ||
4D micro-CT using fast prospective gating | Q36072900 | ||
Imaging techniques for small animal imaging models of pulmonary disease: micro-CT. | Q36168856 | ||
Thoracic applications of dual energy | Q37648941 | ||
Implementation of dual- and triple-energy cone-beam micro-CT for postreconstruction material decomposition | Q40019734 | ||
Pulmonary imaging using dual-energy CT, a role of the assessment of iodine and air distribution | Q45102552 | ||
Comparison of hyperpolarized (3)He MRI with Xe-enhanced computed tomography imaging for ventilation mapping of rat lung. | Q48292030 | ||
Material differentiation by dual energy CT: initial experience. | Q48345284 | ||
Pulmonary ventilation and perfusion imaging with dual-energy CT. | Q48349283 | ||
Micro-CT imaging of rat lung ventilation using continuous image acquisition during xenon gas contrast enhancement. | Q48575468 | ||
Dual Energy CT lung perfusion imaging--correlation with SPECT/CT. | Q51621110 | ||
Dual energy CT for the assessment of lung perfusion--correlation to scintigraphy. | Q51869876 | ||
Lung perfusion with dual-energy multi-detector row CT: can it help recognize ground glass opacities of vascular origin? | Q53306432 | ||
Dual-energy CT for the assessment of contrast material distribution in the pulmonary parenchyma. | Q53347968 | ||
Dual-energy CT angiography of the lung in patients with suspected pulmonary embolism: initial results. | Q53367392 | ||
Severity assessment of pulmonary embolism using dual energy CT – correlation of a pulmonary perfusion defect score with clinical and morphological parameters of blood oxygenation and right ventricular failure | Q59689549 | ||
P4510 | describes a project that uses | ImageJ | Q1659584 |
P433 | issue | 10 | |
P304 | page(s) | L1088-97 | |
P577 | publication date | 2012-03-16 | |
P1433 | published in | American Journal of Physiology - Lung Cellular and Molecular Physiology | Q4352992 |
P1476 | title | Dual-energy micro-CT of the rodent lung | |
P478 | volume | 302 |
Q43973185 | "Real-time visualization of lung function: from micro to macro". |
Q58588066 | A comparative analysis of EGFR-targeting antibodies for gold nanoparticle CT imaging of lung cancer |
Q39549025 | A neural network-based method for spectral distortion correction in photon counting x-ray CT. |
Q33596127 | Anatomical and functional imaging of myocardial infarction in mice using micro-CT and eXIA 160 contrast agent |
Q57129033 | Application of a novel in vivo imaging approach to measure pulmonary vascular responses in mice |
Q55341737 | Dual-Energy CT Imaging of Tumor Liposome Delivery After Gold Nanoparticle-Augmented Radiation Therapy. |
Q47138659 | Dual-energy micro-CT for quantifying the time-course and staining characteristics of ex-vivo animal organs treated with iodine- and gadolinium-based contrast agents |
Q35092707 | Dual-energy micro-CT functional imaging of primary lung cancer in mice using gold and iodine nanoparticle contrast agents: a validation study |
Q36764589 | Dual-energy micro-computed tomography imaging of radiation-induced vascular changes in primary mouse sarcomas |
Q51039105 | Evaluation of cigarette smoke-induced emphysema in mice using quantitative micro-computed tomography. |
Q37102305 | In vivo characterization of tumor vasculature using iodine and gold nanoparticles and dual energy micro-CT. |
Q39691608 | Magnetic resonance imaging provides sensitive in vivo assessment of experimental ventilator-induced lung injury |
Q26823423 | Micro-CT of rodents: state-of-the-art and future perspectives |
Q38749555 | Microscopic dual-energy CT (microDECT): a flexible tool for multichannel ex vivo 3D imaging of biological specimens. |
Q92167586 | Overcoming detector limitations of x-ray photon counting for preclinical microcomputed tomography |
Q38198485 | Preclinical anatomical, molecular, and functional imaging of the lung with multiple modalities |
Q34389324 | Quantification of lung fibrosis and emphysema in mice using automated micro-computed tomography |
Q91958588 | Quantitative dual-energy micro-CT with a photon-counting detector for material science and non-destructive testing |
Q30858277 | Spectral diffusion: an algorithm for robust material decomposition of spectral CT data |
Q31014536 | Spectrotemporal CT data acquisition and reconstruction at low dose |
Q36094116 | Technical Note: spektr 3.0-A computational tool for x-ray spectrum modeling and analysis |
Q38217493 | The role of preclinical SPECT in oncological and neurological research in combination with either CT or MRI. |
Q92096662 | X-ray-based virtual slicing of TB-infected lungs |
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