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EJNMMI Research
Published in: EJNMMI Research 1/2016

Open Access 01-12-2016 | Original research

ARAS: an automated radioactivity aliquoting system for dispensing solutions containing positron-emitting radioisotopes

Authors: Alex A. Dooraghi, Lewis Carroll, Jeffrey Collins, R. Michael van Dam, Arion F. Chatziioannou

Published in: EJNMMI Research | Issue 1/2016

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Abstract

Background

Automated protocols for measuring and dispensing solutions containing radioisotopes are essential not only for providing a safe environment for radiation workers but also to ensure accuracy of dispensed radioactivity and an efficient workflow. For this purpose, we have designed ARAS, an automated radioactivity aliquoting system for dispensing solutions containing positron-emitting radioisotopes with particular focus on fluorine-18 (18F).

Methods

The key to the system is the combination of a radiation detector measuring radioactivity concentration, in line with a peristaltic pump dispensing known volumes.

Results

The combined system demonstrates volume variation to be within 5 % for dispensing volumes of 20 μL or greater. When considering volumes of 20 μL or greater, the delivered radioactivity is in agreement with the requested amount as measured independently with a dose calibrator to within 2 % on average.

Conclusions

The integration of the detector and pump in an in-line system leads to a flexible and compact approach that can accurately dispense solutions containing radioactivity concentrations ranging from the high values typical of [18F]fluoride directly produced from a cyclotron (~0.1–1 mCi μL−1) to the low values typical of batches of [18F]fluoride-labeled radiotracers intended for preclinical mouse scans (~1–10 μCi μL−1).
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Metadata
Title
ARAS: an automated radioactivity aliquoting system for dispensing solutions containing positron-emitting radioisotopes
Authors
Alex A. Dooraghi
Lewis Carroll
Jeffrey Collins
R. Michael van Dam
Arion F. Chatziioannou
Publication date
01-12-2016
Publisher
Springer Berlin Heidelberg
Published in
EJNMMI Research / Issue 1/2016
Electronic ISSN: 2191-219X
DOI
https://doi.org/10.1186/s13550-016-0176-9

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