Clinical Research Directory

An Open-label Study Comparing Lutetium (177Lu) Vipivotide Tetraxetan Versus Observation in PSMA Positive OMPC.

The purpose of this study is to evaluate the efficacy and safety of lutetium (177Lu) vipivotide tetraxetan (AAA617) in participants with oligometastatic prostate cancer (OMPC) progressing after definitive therapy to their primary tumor. The data generated from this study will provide evidence for the treatment of AAA617 in early-stage prostate cancer patients to control recurrent tumor from progressing to fatal metastatic disease while preserving quality of life by delaying treatment with androgen deprivation therapy (ADT).

Trial of pTVG-HP+Nivo+Targeted Ablation of Resistant Lesions in Non-Castrate RecurrentOMPC

The goal of this clinical trial is to learn whether an experimental vaccine called pTVG-HP ("vaccine" or "DNA vaccine"), combined with a drug called nivolumab can increase the cancer-fighting ability of a person's immune cells. The main question it aims to answer is whether the combination of medicines can get rid of metastatic tumors in participants with non-castrate, recurrent, oligometastatic prostate cancer. Participants will undergo: * Treatment with pTVG-HP * Treatment with Nivolumab * Radiation Therapy

Percutaneous Thermo-ablation for the Treatment of Prostate Cancer Oligometastatasis (TA-P-OLIM)

The TA-P-OLIM Study (Percutaneous Thermo-Ablation of Prostate Cancer OligoMetastasis) is a prospective, interventional phase II study designed to evaluate the feasibility, efficacy, and safety of percutaneous thermal ablation (TA) as a metastasis-directed therapy (MDT) for patients with oligometastatic prostate cancer. So far, these metastases have been locally treated with stereotactic body radiation therapy (SBRT) or surgical resection. Percutaneous TA is a minimally invasive technique that locally destroys tumor tissue using either heat (via microwave or radiofrequency ablation) or cold (via cryoablation). This is achieved by inserting specialized needles into the tumor through a small skin incision under image guidance. TA offers a valuable treatment option for patients who are not suitable candidates for SBRT, such as those with prior radiation exposure or metastases located near critical anatomical structures. In many of these cases, ablation remains feasible through the use of adjunctive thermoprotection techniques, where fluid is injected via a needle to gently displace critical structures, thereby creating a safe buffer zone during treatment. Preliminary retrospective evidence shows that TA achieves comparable local tumor control rates to SBRT/resection with minimal complications.7 As a minimally invasive procedure, TA typically requires only a brief hospital stay-often on an outpatient basis-and enables rapid recovery. This makes TA an attractive alternative to surgery, which is associated with greater morbidity, longer recovery times, and limited suitability for some patients. In contrast to SBRT, TA also allows for simultaneous tissue sampling which is completed in a single session. Moreover, it can be safely repeated in the event of local recurrence. The study focuses on patient-centered endpoints such as local control and tolerability, aiming to improve quality of life through personalized, minimally invasive treatment strategies. TA also offers an effective local treatment option for patients who are not eligible for standard treatments such as SBRT. In this way, an alternative to both SBRT and surgery is provided, enabling continued local treatment for patients. Patients are eligible if they have previously received radical treatment for prostate cancer (surgery or radiotherapy, with or without hormonal therapy), subsequently developed a limited number of metastases (1-5), and are no longer candidates for or deny SBRT. UZ Ghent, with its long-standing research expertise in metastasis-directed therapies for oligometastatic prostate cancer, coordinates the study. The project was established in collaboration with various departments within the Urological Multidisciplinary Tumor Board. Several centers in East and West Flanders have already confirmed their willingness to participate in the study.

HIghly MetAstatic Life Prolonging Therapy-Resistant Prostate Cancer: Role of Stereotactic Radiotherapy for Bone and Lymph Node Metastases (HIMARS)

The investigators propose redefining this concept by focusing on volume rather than the number of metastases. To achieve this, the investigators aim to determine the Maximum Tolerated Volume (MTV) of metastatic lesions treatable with SRT (Stereotaxic radiotherapy) in a phase 1 study. In this study, the investigators will recruit patients with high-volume metastatic disease in bones or lymph nodes and progressively irradiate a volume-escalated subset of the total lesions. The selection will prioritize lesions at higher risk of causing pain or complications, such as fractures, spinal compression, or vascular compression. The investigators hypothesis is that SRT targeting multiple metastases (with a total volume ≤ MTV) will extend the duration without refractory pain and/or tumor-related complications in patients with castration-resistant and chemo-refractory prostate cancer.