about
Micro-CT of rodents: state-of-the-art and future perspectivesIn vivo time-resolved microtomography reveals the mechanics of the blowfly flight motorX-ray-computed tomography contrast agentsA Novel Mouse Segmentation Method Based on Dynamic Contrast Enhanced Micro-CT ImagesWhole animal imaging.Registration-based segmentation of murine 4D cardiac micro-CT data using symmetric normalization.Anatomical and functional imaging of myocardial infarction in mice using micro-CT and eXIA 160 contrast agentGeometric calibration for a dual tube/detector micro-CT system.Comparison of 4D-microSPECT and microCT for murine cardiac function.Multibeam field emission x-ray system with half-scan reconstruction algorithm.Micro-CT imaging assessment of dobutamine-induced cardiac stress in rats.Prospective-gated cardiac micro-CT imaging of free-breathing mice using carbon nanotube field emission x-ray.Contrast enhanced micro-computed tomography resolves the 3-dimensional morphology of the cardiac conduction system in mammalian heartsPhase-selective image reconstruction of the lungs in small animals using Micro-CT.Quantitative analysis of microscopic X-ray computed tomography imaging: Japanese quail embryonic soft tissues with iodine staining.Microscope-based near-infrared stereo-imaging system for quantifying the motion of the murine epicardial coronary arteries in vivo.4D micro-CT for cardiac and perfusion applications with view under samplingPhenylephrine-modulated cardiopulmonary blood flow measured with use of X-ray digital subtraction angiography.A dual micro-CT system for small animal imaging4D micro-CT using fast prospective gating.High-resolution CT vascular imaging using blood pool contrast agents.Inclusion of biomarkers for detecting perturbations in the heart and lung and lipid/carbohydrate metabolism in National Toxicology Program studies.Temporal and spectral imaging with micro-CTIn vivo small animal micro-CT using nanoparticle contrast agents.Effects of isoflurane anesthesia on the cardiovascular function of the C57BL/6 mouse.INTERCOMPARISON OF PERFORMANCE OF RF COIL GEOMETRIES FOR HIGH FIELD MOUSE CARDIAC MRIMorphological studies of the murine heart based on probabilistic and statistical atlasesContinuing education course #1: non-invasive imaging as a problem-solving tool and translational biomarker strategy in toxicologic pathology.Left ventricle volume measurements in cardiac micro-CT: the impact of radiation dose and contrast agent.A registration based approach for 4D cardiac micro-CT using combined prospective and retrospective gating.Sparseness prior based iterative image reconstruction for retrospectively gated cardiac micro-CT.A LabVIEW Platform for Preclinical Imaging Using Digital Subtraction Angiography and Micro-CT.The utility of micro-CT and MRI in the assessment of longitudinal growth of liver metastases in a preclinical model of colon carcinoma.In Vivo Quantitative Assessment of Myocardial Structure, Function, Perfusion and Viability Using Cardiac Micro-computed Tomography.In vivo microCT imaging of rodent cerebral vasculature.In vivo small-animal imaging using micro-CT and digital subtraction angiography.Cardiac micro-computed tomography for morphological and functional phenotyping of muscle LIM protein null mice.High-resolution imaging of murine myocardial infarction with delayed-enhancement cine micro-CT.Microcomputed tomography characterization of neovascularization in bone tissue engineering applicationsQuantitative blood flow measurements in the small animal cardiopulmonary system using digital subtraction angiography.
P2860
Q26823423-F7F257CA-6F81-4138-B901-A48C7C9588F5Q27315173-55016977-DAC8-42BF-9343-D211D3086E7FQ28280706-B6B29319-EB9F-4AEA-9669-BE69DA9FFD7CQ28468428-F7567D50-CF95-43CD-A481-C93A35A2A7EFQ30411800-45D9C935-090F-48A3-8F39-185141F96591Q30564485-1563912C-2D0B-4A66-944D-B5C1EA8AD0F0Q33596127-2BA644B1-7B57-4A9D-9AFB-72993F512F4BQ33603797-E8DF2DA7-C4E0-41DD-B58C-C9D70D702BDDQ33771096-EEEFAEE4-7647-42C8-B949-A4D3D03F852FQ34017209-B02FDC28-DE4E-4D3B-A228-83792314C786Q34044182-318B9A29-A266-4452-9382-535D9B98A120Q34185400-A6C8A771-8C49-4F06-BD80-2C893905DDCFQ34235623-0392F6EE-715E-41D4-829E-570688D15647Q34479674-4EA05433-A1DD-4413-A3B7-9A9951014BCCQ34838492-BC3CB477-63C1-409E-8F72-820423F8E9AFQ34993960-21B4E155-D0D7-4375-A97D-C434D8421464Q35234233-F8EBB676-68EA-4912-B79C-14CB954C2F74Q35434752-0EEE6AE3-2826-47AA-A090-7C7FBD1A4B24Q35484386-2564858F-436A-42E5-B0D4-9979591E9166Q36072900-76476C7C-51E0-4F6A-BFDA-B515682E0A91Q36119292-076616B0-3218-4B45-BD38-F82955DAA950Q36148595-4E376958-C518-48F3-90E2-35DBD7518B91Q36157040-1775A754-F32C-441F-98E0-5340D8CFE9FBQ36245557-3969D8E3-14FF-4EBC-84E5-09497772A64BQ36430023-2AD0D03B-E918-43A2-A865-F87CCF6B1987Q36430035-96D501ED-95FE-4F73-BD2B-AB3E12034540Q36435553-6C6D8E0A-0EAA-4F02-8D95-D5CA1BFBBF86Q36459121-BAA4F5D7-314B-439B-BDD8-98325D06A26CQ36511907-092CFB3D-6E09-454D-8B57-CE1110A02AAFQ36559214-024D536C-E25E-4FBE-9919-B94BE9F90F30Q36628956-4F073D41-6150-469B-87E9-EB995F2EDEE5Q36663170-545C65D4-8CE5-4712-B973-437955F141A9Q36700230-2C3EE8A0-3340-441F-89B0-3CEFCD3C8BEEQ36788392-DA3D62FE-4CA3-4C8F-A835-A863B67D9A81Q36994029-2648DC8A-9C1B-4738-AB85-A44CEF44B068Q37146361-EDBE8E0D-4FFC-4C6F-B9F6-E188228B07C9Q37163435-3F49C60C-6FE4-4DA9-9B7B-743E940A211FQ37187168-744388B5-58DF-4C4B-A766-194E7EEFF670Q37227529-5707E9C8-5096-429F-826B-5EE46FFA675EQ37428394-1F3D7FF6-BC13-4F73-87E6-A4A529686EC4
P2860
description
2005 nî lūn-bûn
@nan
2005年の論文
@ja
2005年学术文章
@wuu
2005年学术文章
@zh
2005年学术文章
@zh-cn
2005年学术文章
@zh-hans
2005年学术文章
@zh-my
2005年学术文章
@zh-sg
2005年學術文章
@yue
2005年學術文章
@zh-hant
name
4-D micro-CT of the mouse heart.
@en
4-D micro-CT of the mouse heart.
@nl
type
label
4-D micro-CT of the mouse heart.
@en
4-D micro-CT of the mouse heart.
@nl
prefLabel
4-D micro-CT of the mouse heart.
@en
4-D micro-CT of the mouse heart.
@nl
P2093
P1476
4-D micro-CT of the mouse heart.
@en
P2093
Boma Fubara
Cristian T Badea
G Allan Johnson
Laurence W Hedlund
P304
P577
2005-04-01T00:00:00Z