97 research outputs found
High regioselectivity in electrochemical α-methoxylation of N-protected cyclic amines
N-Protecting groups of α-substituted cyclic amines strongly affected the regioselectivity in electrochemical methoxylation of these compounds. Namely, N-acyl derivatives were transformed into α′-methoxylated compounds, while N-cyano derivatives changed into α-methoxylated derivatives. Furthermore, Lewis acid catalyzed nucleophilic substitution of the α-methoxylated compounds protected with cyano group afforded α,α-disubstituted cyclic amines
Prostate-Specific Membrane Antigen Expression on PET/CT in Patients with Metastatic Castration-Resistant Prostate Cancer: A Retrospective Observational Study
Monitoring therapy response in patients with metastatic castration-resistant prostate cancer (mCRPC) treated with novel hormonal therapies, taxanes, and newly approved therapies is crucial for optimizing treatment. [68Ga]Ga-prostate-specific membrane antigen (PSMA)-11 positron emission tomography/computed tomography (PSMA PET/CT) is a promising target for managing treatment in patients with prostate cancer. PSMA is overexpressed in patients with mCRPC; understanding how expression might change in patients undergoing treatment could determine its potential for guiding clinical decisions. We examined PSMA expression in patients with CRPC and compared PET/CT response with prostate-specific antigen (PSA) variation as a prognostic factor for progression-free survival and overall survival (PFS and OS, respectively). Methods: This was a single-center, retrospective observational cohort study in patients with CRPC enrolled in the PSMA-PROSTATA registry study (EudraCT: 2015-004589-27). A first and second (if applicable) PSMA PET/CT were performed to determine PSMA expression (absence or presence). PET/CT response was assessed as responders (patients with stable disease, partial or complete response) versus nonresponders (patients with progressive disease) by comparing the first with the second PET/CT. PSA variation (increase or decrease from baseline) was assessed across the same time period. PFS was defined as the time between second PET/CT and PSA recurrence or evidence of radiologic progression. Results: Overall, 160 patients with CRPC were included in the analysis. At first PET/CT, nearly all (n = 152; 95.0%) patients had PSMA expression (classified as mCRPC), irrespective of prior systemic therapy. SUVmax was positively associated with baseline PSA levels and velocity (both P < 0.001). According to PET/CT response, median SUVmax on first PET/CT was numerically lower in nonresponders than in responders (17.5 vs. 20.4; P = 0.127). Similarly, patients with a PSA increase had significantly lower median SUVmax on first PET/CT (15.8) than did those with a PSA decrease (30.4; P = 0.018). PSA change was, on average, 146% in nonresponders and -57% in responders between first and second PET/CT (P < 0.001). Agreement between PET/CT and PSA response was 79% (k = 0.553, P < 0.001). Among the 63 patients included in PFS/OS analyses, 76.2% had a relapse and 36.5% died before 24-mo follow-up; median PFS and OS were 6.1 and 24 mo, respectively. PET/CT response, independent of PSA variation, was a significant prognostic factor for PFS. OS was not significantly different between PET/CT responders and nonresponders. Conclusion: PSMA PET/CT may be a useful imaging method predictive of treatment response in patients with mCRPC, regardless of ongoing systemic therapy. Data also suggest that response assessed by PET/CT is a potentially more significant prognostic factor than PSA for PFS. Further studies are needed to understand the potential involvement of PSMA expression on survival
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