In vivo micro-CT imaging of liver lesions in small animal models.

Three-dimensional micro computed tomography (microCT) offers the opportunity to capture images liver structures and lesions in mice with a high spatial resolution. Non-invasive microCT allows for accurate calculation of vessel tortuosity and density, as well as liver lesion volume and distribution. Longitudinal monitoring of liver lesions is also possible. However, distinguishing liver lesions from variations within a normal liver is impossible by microCT without the use of liver- or tumor-specific contrast-enhancing agents. The combination of microCT for morphologic imaging with functional imaging, such as positron emission tomography (PET) or single photon emission tomography (SPECT), offers the opportunity for better abdominal imaging and assessment of structure discrepancies visible by functional imaging. This paper describes methods of current microCT imaging options for imaging of liver lesions compared to other imaging techniques in small animals.

[1]  R. Counsell,et al.  Physicochemical characterization of a synthetic lipid emulsion for hepatocyte-selective delivery of lipophilic compounds: application to polyiodinated triglycerides as contrast agents for computed tomography. , 1996, Journal of pharmaceutical sciences.

[2]  Xiaoen Wang,et al.  Development of a high metastatic orthotopic model of human renal cell carcinoma in nude mice: benefits of fragment implantation compared to cell-suspension injection , 1999, Clinical & Experimental Metastasis.

[3]  Robert M. Hoffman,et al.  Orthotopic Metastatic Mouse Models for Anticancer Drug Discovery and Evaluation: a Bridge to the Clinic , 2004, Investigational New Drugs.

[4]  Jamey P Weichert,et al.  Imaging of murine liver tumor using microCT with a hepatocyte-selective contrast agent: accuracy is dependent on adequate contrast enhancement. , 2004, The Journal of surgical research.

[5]  David B. Stout,et al.  MicroCT Liver Contrast Agent Enhancement Over Time, Dose, and Mouse Strain , 2007, Molecular Imaging and Biology.

[6]  A. Tischler,et al.  Characterization of an animal model of aggressive metastatic pheochromocytoma linked to a specific gene signature , 2009, Clinical & Experimental Metastasis.

[7]  S. Gambhir,et al.  Multimodality imaging of tumor xenografts and metastases in mice with combined small-animal PET, small-animal CT, and bioluminescence imaging. , 2007, Journal of nuclear medicine : official publication, Society of Nuclear Medicine.

[8]  David W Holdsworth,et al.  Time-Course Characterization of the Computed Tomography Contrast Enhancement of an Iodinated Blood-Pool Contrast Agent in Mice Using a Volumetric Flat-Panel Equipped Computed Tomography Scanner , 2006, Investigative radiology.

[9]  Hye Won Kim,et al.  Micro-CT imaging with a hepatocyte-selective contrast agent for detecting liver metastasis in living mice. , 2008, Academic radiology.

[10]  Jean Marx,et al.  Animal Models: Live and in Color , 2003, Science.

[11]  R. Counsell,et al.  Polyiodinated triglyceride analogs as potential computed tomography imaging agents for the liver. , 1995, Journal of medicinal chemistry.

[12]  Nobunao Maehara,et al.  Experimental microcomputed tomography study of the 3D microangioarchitecture of tumors , 2003, European Radiology.

[13]  D M Heisey,et al.  Combined hepatocyte-selective and blood-pool contrast agents for the CT detection of experimental liver tumors in rabbits. , 2000, Radiology.

[14]  Andy J. Minn,et al.  Genes that mediate breast cancer metastasis to lung , 2005, Nature.

[15]  S. Hilsenbeck,et al.  Somatic Mutation of p53 Leads to Estrogen Receptor α-Positive and -Negative Mouse Mammary Tumors with High Frequency of Metastasis , 2004, Cancer Research.

[16]  Kennita A Johnson Imaging Techniques for Small Animal Imaging Models of Pulmonary Disease: Micro-CT , 2007, Toxicologic pathology.

[17]  J. Kuhlman,et al.  CT depiction of experimental liver tumors: contrast enhancement with hepatocyte-selective iodinated triglyceride versus conventional techniques. , 1997, Radiology.