, volume 19 , issue 32 , pages 6995-7000

Scalable ¹⁸F processing conditions for copper-mediated radiofluorination chemistry facilitate DoE optimization studies and afford an improved synthesis of [¹⁸F]olaparib

Gregory Bowden ¹

Nantanat Chailanggar ¹

Bernd J. Pichler ^{1, 2, 3}

Andreas Maurer ^{1, 2}

Hide authors affiliations Show authors affiliations: 3 affiliations

Werner Siemens Imaging Center, Department of Preclinical Imaging and Radiopharmacy, Eberhard Karls University, Tübingen, Germany

University of Tübingen

Siemens AG

Cluster of Excellence iFIT (EXC 2180) “Image-Guided and Functionally Instructed Tumor Therapies”, Eberhard Karls University, Tübingen, Germany |

German Cancer Research Center, German Cancer Consortium DKTK, Partner Site Tubingen, D-72076 Tübingen, Germany |

Publication type: Journal Article

Publication date: 2021-08-02

Royal Society of Chemistry (RSC)

Organic and Biomolecular Chemistry

scimago Q2

wos Q2

SJR: 0.600

CiteScore: 5.2

Impact factor: 2.7

ISSN: 14770520, 14770539

DOI: 10.1039/d1ob00903f

Copy DOI

PubMed ID: 34351339

Organic Chemistry

Biochemistry

Physical and Theoretical Chemistry

Abstract

A convenient and scalable base-free method for processing [18F]fluoride as [18F]TBAF is reported and applied to copper-mediated radiofluorination radiosyntheses. A central feature of this method is that a single production of [18F]TBAF can be divided into small aliquots that can be used to perform multiple small-scale reactions in DoE optimization studies. The results of these studies can then be reliably translated to full batch tracer productions using automated synthesizers. The processing method was applied to the DoE optimization of [18F]olaparib, affording the tracer in high radiochemical yields via both manual (%RCY = 78 ± 6%, n = 4 (CMRF step only)) and automated (up to 80% (%RCY); 41% activity yield (%AY)) radiosynthesis procedures.

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Bowden G. et al. Scalable 18F processing conditions for copper-mediated radiofluorination chemistry facilitate DoE optimization studies and afford an improved synthesis of [18F]olaparib // Organic and Biomolecular Chemistry. 2021. Vol. 19. No. 32. pp. 6995-7000.

GOST all authors (up to 50) Copy

Bowden G., Chailanggar N., Pichler B. J., Maurer A. Scalable 18F processing conditions for copper-mediated radiofluorination chemistry facilitate DoE optimization studies and afford an improved synthesis of [18F]olaparib // Organic and Biomolecular Chemistry. 2021. Vol. 19. No. 32. pp. 6995-7000.

RIS |

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RIS Copy

TY - JOUR

DO - 10.1039/d1ob00903f

UR - https://xlink.rsc.org/?DOI=D1OB00903F

TI - Scalable 18F processing conditions for copper-mediated radiofluorination chemistry facilitate DoE optimization studies and afford an improved synthesis of [18F]olaparib

T2 - Organic and Biomolecular Chemistry

AU - Bowden, Gregory

AU - Chailanggar, Nantanat

AU - Pichler, Bernd J.

AU - Maurer, Andreas

PY - 2021

DA - 2021/08/02

PB - Royal Society of Chemistry (RSC)

SP - 6995-7000

IS - 32

VL - 19

PMID - 34351339

SN - 1477-0520

SN - 1477-0539

ER -

BibTex |

Cite this

BibTex (up to 50 authors) Copy

@article{2021_Bowden,

author = {Gregory Bowden and Nantanat Chailanggar and Bernd J. Pichler and Andreas Maurer},

title = {Scalable 18F processing conditions for copper-mediated radiofluorination chemistry facilitate DoE optimization studies and afford an improved synthesis of [18F]olaparib},

journal = {Organic and Biomolecular Chemistry},

year = {2021},

volume = {19},

publisher = {Royal Society of Chemistry (RSC)},

month = {aug},

url = {https://xlink.rsc.org/?DOI=D1OB00903F},

number = {32},

pages = {6995--7000},

doi = {10.1039/d1ob00903f}

}

MLA

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MLA Copy

Bowden, Gregory, et al. “Scalable 18F processing conditions for copper-mediated radiofluorination chemistry facilitate DoE optimization studies and afford an improved synthesis of [18F]olaparib.” Organic and Biomolecular Chemistry, vol. 19, no. 32, Aug. 2021, pp. 6995-7000. https://xlink.rsc.org/?DOI=D1OB00903F.

Publisher

Royal Society of Chemistry (RSC)

Journal

Organic and Biomolecular Chemistry

scimago Q2

wos Q2

SJR

0.600

CiteScore

5.2

Impact factor

2.7

ISSN

14770520 (Print)

14770539 (Electronic)