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Molecular nuclear imaging in prostate cancer has made significant progress in the last few years. The introduction of tracers that target the prostate-specific membrane antigen (PSMA) has profoundly influenced imaging diagnostics in prostate cancer. In case of relapse after curative treatment (especially after radical prostatectomy), PSMA positron emission tomography (PET) has the ability to detect lesions already at very low prostate-specific antigen (PSA) levels. The improved detection of relapses increases the interest of individualized targeted therapies in patients with prostate cancer recurrence. Thus, this development led to the acceptance of PSMA PET for diagnostics in prostate cancer patients with biochemical relapses in national and international guidelines.
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As mentioned before, current data on salvage lymphadenectomy in prostate cancer is very limited and stems mainly from retrospective series. Prospective studies are not available. Furthermore, most of these analyses are based on choline-based positron emission tomography, which by now has been progressively replaced with the significantly more sensitive and specific PSMA-based PET. Diagnostic advantages are especially obvious in early biochemical recurrence with low PSA levels . The high specificity of a PSMA Tracer in diagnosing prostate cancer tissue is further demonstrated by the introduction of PSMA-radioguided surgery. Here, patients are injected intravenously before surgery with 111In- or 99mTc-labeled PSMA ligands in order to enhance intraoperative detection of affected lymph nodes that show radiotracer accumulation.
Regarding biomarkers used in prostate cancer, besides PSA and PSA-associated variations, there also exists a multiple number of different biomarkers. However, most of these biomarkers are used in the primary diagnostic setting or in advanced metastatic tumor stages with a castration-resistant stage. However, especially in early biochemical recurrences there is a need for biomarkers to help determine whether or not local salvage treatment can or should be considered. Circulating tumor cells (CTCs) are promising candidates as a biomarker, that could support the decision-making process. While the prognostic relevance of CTCs for patients with a metastatic castration-resistant stage prostate cancer has been shown in many studies, far less data exists for patients with hormone-sensitive metastatic prostate cancer. Regardless of the fact, survival is associated with the number of CTCs measured in peripheral blood. Recently, we were able to show that CTCs in patients with limited metastatic prostate cancer exhibited higher prognostic relevance, before and after cytoreductive radical prostatectomy, than conventional biomarkers (PSA, LDH =lactate Dehydrogenase and BAP). Even when the conventional biomarkers were combined with routine markers and CTCs, the prognostic relevance did not increase. Although the case numbers were very small, in the future, CTCs could still help identify patients that would most profit from a cytoreductive radical prostatectomy.
Therefore, this project will investigate whether or not CTCs can preoperatively provide prognostic information on the postoperative oncological response, as described in the study protocol. The plan is to withdraw blood (7,5 ml) before surgery from 150 limited metastatic prostate cancer patients. These patients have to qualify for salvage surgery according to the PSMA-PET. The blood will be examined with the Cell-Search-Systems for CTCs and their PSMA Expression.
Plasma samples and peripheral blood mononuclear cells (PBMCs) from peripheral blood will also be stored. These samples will be used later for a further project on prostate cancer-specific exosomes where PSMA positivity and cell-free circulating nucleic acids will be examined. The expertise for such analyses, standard operating procedures (SOPs) and necessary equipment are available.
Furthermore, the Institute for Tumor Biology has recently established a new blood test for detecting breast cancer. This test will also be used on prostate cancer patients within the scope of this project. This test measures the serum concentration of Cyr61-Proteins. The Institute has established an Enzyme-Linked Immunosorbent Assay (ELISA), which has already been successfully implemented for the analysis of blood plasma in 527 breast cancer patients. Consequently, this newly developed blood test presents an important improvement in the diagnosis of breast cancer (International patent System 2018/054052). It would also like to test this method for its adequacy and improvement in the diagnosis of prostate cancer within the context of this project.
Furthermore, in a subset of patients additionally tissue from metastatic lymph nodes will be collected for molecularpathologic analysis if tissue sampling does not affect routine pathological examination.
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