Validity of a simple spillover correction for positron emission tomography measurements in the cerebrospinal fluid region
Emi Hayashi, Shin Hibino, Mitsuhito Mase

TL;DR
This study introduces and validates a simple method to correct spillover artifacts in PET measurements of cerebrospinal fluid, improving accuracy and simplifying analysis.
Contribution
A novel subtraction method for spillover correction in PET CSF measurements is proposed and validated.
Findings
The subtraction method effectively reduced spillover artifacts in phantom studies.
Spillover correction made time–activity curves for FDG, FDOPA, and RAC approach near-zero in CSF.
H2O showed increasing activity in CSF after correction, indicating different behavior.
Abstract
Positron emission tomography (PET) measurements in the cerebrospinal fluid (CSF) region may be overestimated because of spillover artifacts from surrounding radioactivity. In this study, we proposed a simple spillover correction method (subtraction method) and evaluated its validity. A cylindrical phantom simulating brain ventricles was used to compare the subtraction method with the geometric transfer matrix (GTM) correction approach. And the subtraction method was applied to dynamic PET images of [18F]fluorodeoxyglucose (FDG), [18F]fluorodopa (FDOPA), and [11C]raclopride (RAC), and [15O]H2O (H2O). The effects of spillover correction on CSF measurements were assessed. Both methods effectively reduced spillover artifacts in the phantom study. In dynamic PET images, after spillover correction, time–activity curves for FDG, FDOPA, and RAC approached near-zero levels in the CSF, whereas…
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Taxonomy
TopicsMedical Imaging Techniques and Applications · Cerebrospinal fluid and hydrocephalus · Advanced MRI Techniques and Applications
