Estimation of the noise contributions from Blank, Transmission and Emission scans in PET

Peter Aundal Toft, Søren Holm, Michael Jensen

    Research output: Contribution to journalJournal articleResearchpeer-review

    Abstract

    This work determines the relative importance of noise from blank (B), transmission (T) and emission (E) scans in PET using a GE Advance scanner on a 20 cm cylinder, a brain phantom, and a torso-like ellipse (18/35 cm) with examples of human scans (brain O-15 water and F-18 FDG, heart FDG). Phantom E scans were acquired in both 2D and 3D modes as decay series with C-ll or F-18 over 36 decades of Noise Equivalent Counts (NEC). B and T scans were made using two pin sources (≈500 MBq total) over 64-32768 sec. In humans only a limited subset was available. In homogeneous phantoms normalized variance (var) was estimated from pixel distributions in single images. In other objects, including the human studies, calulations were performed on differences of paired images. In all cases a fit was made to a simple noise model. The cylinder data show expected relations of T to B noise proving l,he adequacy of B scan times < 20 miri for most purposes. For the brain phantom, a contour plot is provided for var(E,T). In a typical 3D O-15 water study with 0.5M counts per central slice, a 10 min T-scan adds less than 10% to the total noise level. An example shows how to split a total scan lime between E and T scans, in order to minimize the variance.
    Original languageEnglish
    JournalIEEE Transactions on Nuclear Science
    Volume43
    Issue number4
    Pages (from-to)2285-2291
    ISSN0018-9499
    DOIs
    Publication statusPublished - 1996

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