This diagnostic clinical trial will be conducted according to a randomized, prospective, controlled, double-arm, single-centre design. The control will be implemented by comparing the PET/MRI results with the histopathological finding after radical prostatectomy (positive state), the assumed absence of a relevant prostate cancer focus if PET/MRI guided biopsy and standard biopsy are negative (negative state) and/or the detection of a biochemical tumor relapse \[rising prostate specific antigen (PSA) after PSA nadir; secondary objective\].
In the last years magnetic resonance imaging (MRI) as well as positron emission tomography (PET) of the prostate have emerged as promising imaging tools. MRI provides mainly morphologic information and, to an increasing degree, functional information on the tumor microenvironment by using multiparametric approaches leading to an increase in diagnostic accuracy. Transition and periurethral zone cancers and the identification of patients' individual risk (e.g. for the development of a metastatic disease after primary treatment) is still a limitation of this method. PET, concerning radiolabelled choline, provides functional and predicting data on tumor metabolism and aggressiveness and has been found to be of complimentary value to morphologic imaging but still with the caveat of false positive and false negative findings. To overcome these limitations of morphological and functional imaging techniques, hybrid imaging systems have been developed and introduced into clinical routine. Additionally, the recently developed 68Ga-labeled Prostate Specific Membrane Antigen (PSMA) provides a highly specific information on a possible metastatic spread of prostate cancer. Thus the combined use of PET-MRI has wide spread applications in prostate cancer diagnosis, staging and treatment planning. The potentials of this novel technique in general and its impact on assessing patients' individual risk to support a therapy or active surveillance decision in a future modified urological patient management were not yet explored in detail, but an initial prospective clinical trial in 38 patients with a sequential PET/MRI technique demonstrated the ability of a significant improvement of the individual methods. This registered prospective, randomized clinical trial is intended to proof, in a first step, the superiority of PET/MRI vs. the actual clinical standard procedures by applying a stable multiparametric metabolic hybrid imaging protocol. The aim of this study is to reduce the number of unnecessary invasive procedures to a minimum (image guided biopsy) and to enable superior image guided risk stratification. In this prospective, randomized, multi-arm, multi-treatment clinical trial 220 subjects will be included at 1 site within 3 years. With a maximum follow-up for an early biochemical relapse of 2 years the planned duration should not exceed 5 years. The primary objective will be answered after 36 months.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
DIAGNOSTIC
Masking
NONE
Enrollment
220
Patients will receive a dual-tracer PET/MRI scan. FEC and 68Ga-PSMA-HBED-CC, for tissue metabolism and surface marker expressions, as specific PET-tracers as well as multiparametric MRI methods (T2w, DCE, DWI) are used.
All PET-MRI examinations will be performed using a hybrid PET-MRI system (Biograph mMR, Siemens, Germany) capable of simultaneous data acquisition. The system consists of an MRI-compatible state-of the art PET detector integrated in a 3.0-T whole-body MRI scanner.
Department of Biomedical Imaging and Image-guided Therapy
Vienna, Austria
Superiority of image guided biopsy using multiparametric metabolic hybrid imaging with FEC/PSMA-PET/MRI (Fluorethylcholin/Prostate Specific Membrane Antigen- PET/MRI)
We hypothesize that the image guided biopsy using multiparametric metabolic hybrid imaging with FEC/PSMA-PET/MRI is superior in the detection of primary localized prostate cancer than the conventional biopsy approach with transrectal ultrasound in patients with suspected prostate cancer (according to the inclusion criteria) and could therefore significantly improve the detection rate of the dominant intraprostatic tumor lesion and reduce the number of biopsies needed for a correct histopathological diagnosis to a minimum in the future (PET/MRI guided biopsy).
Time frame: 36 months
tumor characterization
This method should enable improved tumor characterization. A diagnostic accuracy of \>80% is assumed in lesions \>5mm (in axial, sagittal and coronal extension) for the ability of the multiparametric metabolic method to differentiate between Gleason ≤3+4=7 (7a) tumors and ≥4+3=7 (7b) tumors (as compared to histological whole mount tumor mapping) and to identify patients with a high risk of developing metastatic disease (as compared to the loss of the transcription factor STAT3(signal transducer and activator of transcription 3) and cell cycle regulator p14 in a molecular pathological workout of the radical prostatectomy specimen).
Time frame: 5 years
early biochemical relapse
To evaluate, if the applied parameters of multiparametric metabolic imaging with FEC- and PSMA-PET/MRI are associated with the evidence of an early biochemical relapse after a PSA nadir \<0.2ng/ml after primary treatment in a two years follow up.
Time frame: 5 years
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