EANM practical guidance on uncertainty analysis for molecular radiotherapy absorbed dose calculations.
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Date
2018-12-01ICR Author
Author
Gear, JI
Cox, MG
Gustafsson, J
Gleisner, KS
Murray, I
Glatting, G
Konijnenberg, M
Flux, GD
Type
Journal Article
Metadata
Show full item recordAbstract
A framework is proposed for modelling the uncertainty in the measurement processes constituting the dosimetry chain that are involved in internal absorbed dose calculations. The starting point is the basic model for absorbed dose in a site of interest as the product of the cumulated activity and a dose factor. In turn, the cumulated activity is given by the area under a time-activity curve derived from a time sequence of activity values. Each activity value is obtained in terms of a count rate, a calibration factor and a recovery coefficient (a correction for partial volume effects). The method to determine the recovery coefficient and the dose factor, both of which are dependent on the size of the volume of interest (VOI), are described. Consideration is given to propagating estimates of the quantities concerned and their associated uncertainties through the dosimetry chain to obtain an estimate of mean absorbed dose in the VOI and its associated uncertainty. This approach is demonstrated in a clinical example.
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Subject
Humans
Neoplasms
Yttrium Radioisotopes
Radiopharmaceuticals
Radiotherapy Dosage
Radiotherapy Planning, Computer-Assisted
Uncertainty
Algorithms
Practice Guidelines as Topic
Research team
Radioisotope Physics
Language
eng
Date accepted
2018-08-14
License start date
2018-12
Citation
European journal of nuclear medicine and molecular imaging, 2018, 45 (13), pp. 2456 - 2474
Publisher
SPRINGER