In this study, patient inclusion and sample collection are multicentric. Sample analysis will be carried out at Life Length's laboratories at the Madrid Science Park in Canto Blanco university campus.
The study will be initiated immediately after approval by the IRB and has an overall length of 12 months (recruiting time).
The main purpose of the present study is to determine the efficacy of the PROSTAV test as a prostate cancer biomarker developed by Life Length and which has been subject to internal validation in a previous study (LL-HURS-ONC001). For this purpose, the risk-prediction algorithm based on telomere and clinical variables will be used. This allows to back medical decisions in patients with uncertain PC diagnosis based on their PSA levels and the need to perform a prostate biopsy. The standard of care of the participating hospitals and following the European Urology Association recommendations, patients with PSA \>3 (prostate-specific antigen) and/or positive digital rectal examination (DRE) are considered at risk for developing PC. However, some medical advisors of the sponsor stated that sometimes patients with PSA levels\<3 are also diagnosed with prostate cancer. For this reason, it has been decided to remove the lower limit of PSA as inclusion criteria.
This study includes only one group of patients defined by inclusion criteria and who will be classified in different groups after a biopsy is performed: 1) patients with a positive biopsy result (diagnosed with significant prostate cancer) (Gleason score \>6), and without significant prostate cancer (Gleason score ≤6) or no cancer. Before knowing the histopathological results of the biopsy, the PROSTAV test will be performed. Depending on the results of the PROSTAV test, the physician will write down which decision he or she would have made as to performing or not a biopsy: zero (0) for a low-risk result in the PROSTAV test, in which case no biopsy would have been performed; and one (1) for a PC risk result in the PROSTAV test, in which case a biopsy would have been performed. Regardless of what the result of the PROSTAV test is, all patients will undergo a biopsy since the result in PROSTAV test will not influence the standard of care in this study.
A 10 ml. sample is required from all subjects included in the study for telomere analysis. This sample is obtained from blood drawn before performing the diagnostic prostate biopsy. The sample must be drawn within a 90-day period prior to biopsy.
The design of the present project allows for one single study phase. This study is a clinical efficacy validation study in patients in whom the results of potential biopsy sparing are compared after evaluating medical decisions based on the use of the PROSTAV test.
The point of origin of the samples are the different participating centers that will use the samples for application of the telomere biology evaluation techniques.
Mononuclear cells in peripheral blood from all samples will be isolated and analyzed to determine values of Telomere Associated Variables (TAVs).
For the calculation of the telomere variables, the Sponsor will use the High-Throughput Quantitative Fluorescent in Situ Hybridization technique (HT-Q-FISH).
Data resulting from each biological sample will be analyzed to obtain a defined risk assessment based on the algorithm of the PROSTAV test. The purpose of the analysis is the integration of the data resulting from telomere measurements (average, median, percentage of short telomeres, ratio of short and long telomeres, etc.) and PSA and free PSA levels, age and the DRE results of the patient's medical record to determine whether they are low-risk patients, in which a biopsy would not be necessary to confirm presence of prostate cancer. By doing this, it is intending to demonstrate the efficacy of the PROSTAV test, since biopsies would be performed in any case and also show the test's sensitivity and specificity values in clinical practice.
