Current Concepts for Experimental Micro-CT in Small Animals

被引:4
|
作者
Bag, S. [1 ]
Schambach, S. J. [1 ]
Boll, H. [1 ]
Schilling, L. [2 ]
Groden, C. [1 ]
Brockmann, M. A. [1 ]
机构
[1] Heidelberg Univ, Med Fak Mannheim, Abt Neuroradiol, D-61867 Mannheim, Germany
[2] Heidelberg Univ, Med Fak Mannheim, Abt Neurochirurg Forsch, D-61867 Mannheim, Germany
来源
ROFO-FORTSCHRITTE AUF DEM GEBIET DER RONTGENSTRAHLEN UND DER BILDGEBENDEN VERFAHREN | 2010年 / 182卷 / 05期
关键词
CT; experimental; in vivo; small animal; micro-CT; RAY COMPUTED-TOMOGRAPHY; SELECTIVE CONTRAST AGENT; CEREBRAL BLOOD-VOLUME; GADOPENTETATE DIMEGLUMINE; GLIOMA MODEL; RADIATION; TUMORS; LIVER; LUNG; VISUALIZATION;
D O I
10.1055/s-0029-1245301
中图分类号
R8 [特种医学]; R445 [影像诊断学];
学科分类号
1002 ; 100207 ; 1009 ;
摘要
The number of publications describing the use of micro-computed tomography (mu CT) for preclinical in vivo imaging of small animals has risen considerably within the last few years. The purpose of this review is to familiarize the reader with the basic principles of mu CT, to present successful experimental approaches in order of the evaluated organ system, and to highlight limitations that need to be considered when planning mu CT-based studies.
引用
收藏
页码:390 / 403
页数:14
相关论文
共 50 条
  • [21] Micro-CT of Carotid Arteries: A Tool for Experimental Studies
    Andreas Mohr
    Ruediger Wenke
    Frank W. Roemer
    John A. Lynch
    Christian Gatzka
    Markus Priebe
    Ali Guermazi
    Mikayel Grigorian
    Martin Heller
    Stefan Mueller-Huelsbeck
    CardioVascular and Interventional Radiology, 2004, 27 : 651 - 654
  • [22] Micro-CT of carotid arteries: A tool for experimental studies
    Mohr, A
    Wenke, R
    Roemer, FW
    Lynch, JA
    Gatzka, C
    Priebe, M
    Guermazi, A
    Grigorian, M
    Heller, M
    Mueller-Huelsbeck, S
    CARDIOVASCULAR AND INTERVENTIONAL RADIOLOGY, 2004, 27 (06) : 651 - 654
  • [23] Lung perfusion imaging in small animals using 4D micro-CT at heartbeat temporal resolution
    Badea, Cristian T.
    Johnston, Samuel M.
    Subashi, Ergys
    Qi, Yi
    Hedlund, Laurence W.
    Johnson, G. Allan
    MEDICAL PHYSICS, 2010, 37 (01) : 54 - 62
  • [24] Quantitative micro-CT
    Schladitz, K.
    JOURNAL OF MICROSCOPY, 2011, 243 (02) : 111 - 117
  • [25] Postmortem microcomputed tomography (micro-CT) of small fetuses and hearts
    Lombardi, C. M.
    Zambelli, V.
    Botta, G.
    Moltrasio, F.
    Cattoretti, G.
    Lucchini, V.
    Fesslova, V.
    Cuttin, M. S.
    ULTRASOUND IN OBSTETRICS & GYNECOLOGY, 2014, 44 (05) : 600 - 609
  • [26] Micro-CT system for Small animal irradiation: Modification and Characterization
    Felix, M.
    Fleckenstein, J.
    Kirschner, S.
    Brockmann, M. A.
    Wenz, F.
    Glatting, G.
    STRAHLENTHERAPIE UND ONKOLOGIE, 2014, 190 : 146 - 146
  • [27] Collimator optimization for small animal radiation therapy at a micro-CT
    Felix, Manuela C.
    Glatting, Gerhard
    Giordano, Frank A.
    Brockmann, Marc A.
    Wenz, Frederik
    Fleckenstein, Jens
    ZEITSCHRIFT FUR MEDIZINISCHE PHYSIK, 2017, 27 (01): : 56 - 64
  • [28] Evaluation of scan strategies for small animal in vivo micro-CT
    Dudak, J.
    Ekendahl, D.
    Judas, L.
    Mrzilkova, J.
    Rubovic, P.
    Zach, P.
    Zemlicka, J.
    JOURNAL OF INSTRUMENTATION, 2020, 15 (02):
  • [29] Preliminary studies of a micro-CT for a combined small animal PET/CT scanner
    Khodaverdi, M
    Pauly, F
    Weber, S
    Schröder, G
    Ziemons, K
    Sievering, R
    Halling, H
    2001 IEEE NUCLEAR SCIENCE SYMPOSIUM, CONFERENCE RECORDS, VOLS 1-4, 2002, : 1605 - 1606
  • [30] DIGITALIS - CURRENT CONCEPTS AND CLINICAL USAGE IN SMALL ANIMALS
    MILLER, MS
    CANINE PRACTICE, 1985, 12 (03) : 6 - 16
12345