Pilot Study of (MR) Imaging with Pyruvate (13C) to Detect High Grade Prostate Cancer

This pilot clinical trial studies how well magnetic resonance spectroscopic imaging (MRSI) with hyperpolarized carbon 13 (13C) pyruvate alone or in combination with 13C 15N2 Urea works in finding prostate cancer that exhibits poorly differentiated or undifferentiated cells (high-grade) and that is restricted to the site of origin, without evidence of spread (localized) in patients undergoing radical prostatectomy. Diagnostic procedures, such as MRSI with hyperpolarized carbon (13C) pyruvate, may aid in the diagnosis of prostate cancer and in discriminating high-grade from low-grade prostate cancer and benign adjacent prostate tissue

PRIMARY OBJECTIVES: I. To investigate the association between hyperpolarized (HP) pyruvate-to-lactate conversion (kPL) and HP urea perfusion with histologic grade of prostate cancer, including benign prostate tissue, low grade disease (primary Gleason score \< 4), and high grade (primary Gleason score \>= 4) prostate cancer (Cohort A). II. To investigate the association between HP pyruvate-to-lactate conversion (kPL) and HP urea perfusion with in-field clinically significant (Gleason score \>3+3) recurrent/residual prostate cancer following non-investigational High-Intensity Focused Ultrasound (HIFU) focal therapy (Cohort B) SECONDARY OBJECTIVES: I. Safety. II. To determine the optimal cut-off value of peak lactate to pyruvate ratio (lac/pyr), lac/pyr area under the curve (AUC), 13C pyruvate to lactate (kPL) rate, urea AUC, and urea transfer constant (ktrans) on magnetic resonance imaging (MRI) that accurately detects primary Gleason 4 component cancer (Cohort A). III. To determine the optimal cut-off value of peak lac/pyr, lac/pyr AUC, kPL Urea AUC, Urea ktrans and kPL-urea product (kUP) on MRI that accurately detects in-field clinically significant (ie. Gleason score \>3+3) recurrent/residual prostate cancer (Cohort B only). IV. To determine the reproducibility of peak lac/pyr, lac/pyr AUC and kPL, urea AUC and urea transfer constant (ktrans) with same-day repeated dose studies. with same-day repeated dose studies. V. To compare peak lac/pyr, lac/pyr AUC and kPL, urea AUC, urea transfer constant (ktrans) on MRI with Prostate Imaging-Reporting and Data System (PI-RADS) assessment of multiparametric MRI in predicting regions of cancer versus benign tissue. EXPLORATORY OBJECTIVES: I. To correlate histologic markers, including lactate dehydrogenase A (LDHA) expression and activity level, along with Ki-67, MYC, and MCT 1 and 4 expression, with peak intra-tumoral lac/pyr ratio, lactate AUC, and kPL detected using anatomically aligned magnetic resonance (MR) cross-sectional images of the prostate gland. II. To test for an association between mean intra-tumoral lac/pyr signal and lactate AUC, kPL, urea AUC, and urea transfer constant (ktrans) with adverse clinical and pathologic characteristics including extracapsular extension, positive nodal involvement, and failure to achieve undetectable prostate specific antigen (PSA) nadir following prostatectomy. OUTLINE: Participants receive either hyperpolarized carbon pyruvate (13C) or co-polarized 13C pyruvate and 13C, 15N2urea intravenously (IV) and undergo MRSI within 12 weeks of undergoing non-investigational radical prostatectomy (cohort A) or non-investigational systematic and MR-targeted biopsies (cohort B). Participants may receive optional second hyperpolarized 13C injection and dynamic 13C MRI scan performed within 15 to 60 minutes following completion of first scan. After completion of study, participants are followed up at 24 hours.