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@ARTICLE{Dietlein:910154,
author = {Dietlein, Felix and Kobe, Carsten and Vázquez, Sergio
Muñoz and Fischer, Thomas and Endepols, Heike and Hohberg,
Melanie and Reifegerst, Manuel and Neumaier, Bernd and
Schomäcker, Klaus and Drzezga, Alexander E. and Dietlein,
Markus},
title = {{A}n 89{Z}r-{L}abeled {PSMA} {T}racer for {PET}/{CT}
{I}maging of {P}rostate {C}ancer {P}atients},
journal = {Journal of nuclear medicine},
volume = {63},
number = {4},
issn = {0022-3123},
address = {New York, NY},
publisher = {Soc.},
reportid = {FZJ-2022-03641},
pages = {573 - 583},
year = {2022},
abstract = {The short half-life of existing
prostate-specificmembraneantigen (PSMA) tracers limits their
time for internalization into tumor cells after injection,
which is an essential prerequisite for robust detection of
tumor lesions with low PSMA expression on PET/CT scans.
Because of its longer half-life, the 89Zr-labeled ligand
89Zr-PSMA-DFO allows acquisition of PET scans up to 6 d
after injection, thereby overcoming the above limitation. We
investigated whether 89Zr-PSMA-DFO allowed more sensitive
detection of weak PSMA-positive prostate cancer lesions.
Methods: We selected 14 prostate cancer patients with
biochemical recurrence who exhibited no PSMA-positive
lesions on a PET scan acquired with existing PSMA tracers
(68Ga-PSMA-11, 18F-JK-PSMA-7). Within 5 wk after the
negative scan result, we obtained a second PSMA PET scan
using 89Zr-PSMA-DFO (117 6 16 MBq, PET acquisition within 6
d of injection). Results: 89Zr-PSMADFO detected 15
PSMA-positive lesions in 8 of 14 patients, who had a
PET-negative reading of their initial PET scans with
existing tracers. In these 8 patients, the new scans
revealed localized recurrence of disease (3/8), metastases
in lymph nodes (3/8), or lesions at distant sites (2/8). On
the basis of these results, patients received lesiontargeted
radiotherapies (5/8), androgen deprivation therapies (2/8),
or no therapy (1/8). The plausibility of 14 of 15 lesions
was supported by histology, clinical follow-up after
radiotherapy, or subsequent imaging. Furthermore, comparison
of the 15 89Zr-PSMA-DFO–positive lesions with their
correlates on the original PET scan revealed that
established tracers exhibited mild accumulation in 7 of 15
lesions; however, contrast-to-noise ratios were too low for
robust detection of these lesions (contrast-to-noise ratios,
2.4 6 3.7 for established tracers vs. 10.2 6 8.5
for89Zr-PSMA-DFO, P 5 0.0014). The SUVmax of the 15
89ZrPSMA-DFO–positive lesions (11.5 6 5.8) was
significantly higher than the SUVmax on the original PET
scans (4.7 6 2.8, P5 0.0001). Kidneys were the most exposed
organ, with doses of 3.3 6 0.7 mGy/MBq. The effective dose
was 0.15 6 0.04 mSv/MBq. Conclusion: In patients with weak
PSMA expression, a longer period of time might be needed for
ligand internalization than that offered by existing PSMA
tracers to make lesions visible on PET/CT scans. Hence,
89ZrPSMA-DFO might be of significant benefit to patients in
whom the search for weak PSMA-positive lesions is
challenging. Radiation exposure should be weighed against
the potential benefitof metastasis-directed therapy or
salvage radiotherapy, which weinitiated in $36\%$ (5/14) of
our patients based on their 89Zr-PSMA-DFO PET scans.},
cin = {INM-5 / INM-2},
ddc = {610},
cid = {I:(DE-Juel1)INM-5-20090406 / I:(DE-Juel1)INM-2-20090406},
pnm = {5253 - Neuroimaging (POF4-525)},
pid = {G:(DE-HGF)POF4-5253},
typ = {PUB:(DE-HGF)16},
pubmed = {34326129},
UT = {WOS:000796182700014},
doi = {10.2967/jnumed.121.262290},
url = {https://juser.fz-juelich.de/record/910154},
}
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