RT Journal Article
SR Electronic
T1 Imaging of neurodegenerative diseases using Tau PET/CT with [<sup>11</sup>C]PBB3 in a clinical setting
JF Journal of Nuclear Medicine
JO J Nucl Med
FD Society of Nuclear Medicine
SP 1463
OP 1463
VO 60
IS supplement 1
A1 Gordon Winter
A1 Karl Bohn
A1 Elham Yousefzadeh-Nowshahr
A1 Katharina Kneer
A1 Christine von Arnim
A1 Markus Otto
A1 Christoph Solbach
A1 Gerhard Glatting
A1 Sarah Anderl-Straub
A1 DÃ¶rte Polivka
A1 Patrick Fissler
A1 Vikas Prasad
A1 Matthias Riepe
A1 Heiko Braak
A1 Kelly Del Tredici
A1 Makoto Higuchi
A1 Albert Ludolph
A1 Ambros Beer
YR 2019
UL http://jnm.snmjournals.org/content/60/supplement_1/1463.abstract
AB 1463Objectives: For many neurodegenerative diseases tau accumulation in the brain is a pathologic hallmark. Several new tau-specific radiotracers for positron emission tomography (PET) have been developed in the last few years, with [11C]PBB3 being one of the most promising compounds. In this study we retrospectively evaluated the first clinical experiences with PBB3 in a patient population with suspicion of neurodegenerative disease, mostly of the FTLD spectrum. Methods: 27 patients were examined with [11C]PBB3PET/CT. The standardized uptake value (SUV) - ratio of [11C]PBB3binding was determined for the individual lobes (frontal, temporal, parietal, occipital) and basal ganglia using cerebellar cortex as the reference. Correlations between SUVr and clinical tests (Mini-mental state examination - MMSE) and cerebrospinal fluid (CSF) parameters (CSF-Abeta; CSF-tau) were analyzed using the Pearson coefficient. [11C]PIB PET/CT was available for correlation in 14 cases and [18F]FDG PET/CT in 17 cases. Final diagnosis was established by integration of all clinical and imaging findings and follow up of the patients. Results: In 13 patients no or only faint uptake could be seen in [11C]PBB3 PET/CT (PBB3 negative) and moderate to pronounced uptake was noted in 14 patients (PBB3 positive). Concerning visual evaluation of the uptake patterns, PBB3 accumulation was most pronounced in the temporal lobe, followed by the occipital lobe, the frontal and parietal lobes. In addition, uptake was observed in the basal ganglia in all patients. Determination of the Pearson coefficient resulted in significant moderate correlations of SUVr for the respective lobes with MMSE (frontal: r = -0.538[asterisk]; occipital r = -0.457[asterisk]; parietal r = -0.574[asterisk][asterisk]) and CSF-tau (occipital r = -0.676[asterisk]) ([asterisk]p=0.05; [asterisk][asterisk]p=0.01). No correlation was observed concerning the basal ganglia. While all PBB3 negative scans were also PIB negative, PBB3 positive scans were either PIB positive or negative. Most PBB3 scans were FDG positive, with single FDG negative scans in both the PBB3 positive and negative group. Discussion: Uptake of [11C]PBB3was most pronounced in amyloid associated neurodegenerative diseases like suspected Alzheimer’s disease. In these cases [11C]PBB3PET/CT showed typical uptake patterns corresponding to areas of expected tau depositions in Braak stages III-VI. Moreover, [11C]PBB3uptake correlated significantly with MMSE and CSF-ABeta, thus suggesting that PBB3-PET may be a promising surrogate parameter for disease severity. However, due the generally only moderate intensity of [11C]PBB3uptake, the ultimate clinical impact on an individual patient level still has to be evaluated in larger prospective trials.