Phys Med Biol. 2009 Apr 21;54(8):2323-40. Epub 2009 Mar 25.

A dynamic micro-CT scanner based on a carbon nanotube field emission x-ray source.

Cao G, Lee YZ, Peng R, Liu Z, Rajaram R, Calderon-Colon X, An L, Wang P, Phan T, Sultana S, Lalush DS, Lu JP, Zhou O.

Source

Department of Physics and Astronomy, University of North Carolina, Chapel Hill, NC 27599, USA. gcao@physics.unc.edu

Abstract

Current commercial micro-CT scanners have the capability of imaging objects ex vivo with high spatial resolution, but performing in vivo micro-CT on free-breathing small animals is still challenging because their physiological motions are non-periodic and much faster than those of humans. In this paper, we present a prototype physiologically gated micro-computed tomography (micro-CT) scanner based on a carbon nanotube field emission micro-focus x-ray source. The novel x-ray source allows x-ray pulses and imaging sequences to be readily synchronized and gated to non-periodic physiological signals from small animals. The system performance is evaluated using phantoms and sacrificed and anesthetized mice. Prospective respiratory-gated micro-CT images of anesthetized free-breathing mice were collected using this scanner at 50 ms temporal resolution and 6.2 lp mm(-1) at 10% system MTF. The high spatial and temporal resolutions of the micro-CT scanner make it well suited for high-resolution imaging of free-breathing small animals.

PMID:: 19321922; [PubMed - indexed for MEDLINE]

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Nanotubes, Carbon

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Cited by 6 PubMed Central articles

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