Ziel/Aim [18F]Pyridinyl-butadienyl-benzothiazole 3 (18F-PM-PBB3) is a novel PET imaging agent designed to capture tau pathology in neurodegenerative
diseases. We report here our initial clinical experience in Alzheimer`s disease (AD)
and progressive supranuclear palsy (PSP) patients with this novel 18F-labelled PET tracer.
Methodik/Methods 16 clinically confirmed AD patients, 3 clinically confirmed PSP patients and ten
age-matched healthy controls (HC) underwent clinical assessment, MRI and 18F-PM-PBB3-PET imaging. Late emission images recorded at 90 min post injection were
pre-processed, spatially normalized in SPM. We then calculated standardized uptake
value ratios (SUVR) using cerebellar cortex as reference region. Differences in tracer
binding in various brain regions were compared using the two-tailed independent Student’s
t-test, and correlations between SUVR and clinical dementia scores (MMSE) were interrogated
by Pearson’s correlation.
Ergebnisse/Results Significant differences in SUVR between HC and AD groups (p < 0.05) were noted in
the frontal (Cohen’s d =1.95), temporal (d = 1.78), occipital (d = 1.70) and parietal
lobes (d = 1.76), as well as in the insula (d = 1.50), cingulum (d = 1.80), putamen
(d = 1.42), midbrain (d = 1.07) and pons (d = 1.36). Post hoc regression analysis
revealed significant correlations between SUVR and MMSE in the AD patients for the
superior right frontal gyrus (r = −0.670; p = 0.005), inferior left temporal gyrus
(r = −0.686; p = 0.014) and left hippocampus (r = −0.601; p = 0.014). For the preliminary
investigation on PSP patients, increased uptake was observed in mid brain, pallidum,
pons, thalamus and putamen (means: 35.0 %, 23.9 %, 9.4 %, 8.8 % and 7.3 % respectively).
Schlussfolgerungen/Conclusions 18F-PM-PBB3-PET imaging discriminates well between HC and AD groups with a large effect
size. Areas of increased uptake correlated with the known distribution pattern of
tauopathy in post mortem brain of AD patients. Increased uptake was also observed
in PSP patients in brain regions known to accumulate tau. This 18F-based tau tracer is a promising second-generation tau-tracer suitable for further
clinical studies in 3R- and 4R-tauopathies. Acknowledgement: We thank APRINOIA Therapeutics
for providing the precursor used in the study.