View clinical trials related to Prostate Adenocarcinoma.
Filter by:This phase II trial tests whether magnetic resonance imaging (MRI)-guided hypofractionated radiation therapy works to reduce treatment time and side effects in patients with high risk prostate cancer. MRI-guided hypofractionated radiation therapy delivers higher doses of radiation therapy over a shorter period of time directly to diseased tissue, reducing damage to healthy tissue. Using MRI-guided radiation therapy on areas of the prostate and pelvic lymph nodes may shorten overall treatment time compared to the longer standard of care therapy and may reduce the number and/or duration of side effects.
This is a single center single arm prospective pilot study investigating the safety of high dose rate (HDR) brachytherapy as monotherapy delivered in 2 fractions 3 hours apart. HDR monotherapy has been established as safe and effective in this context, however previous studies have delivered 2 fractions on separate days, or at least 6 hours apart. Clinically, this regimen, if shown to be safe and effective in future studies, has the potential to reduce operative resources and logistical stresses on brachytherapy departments.
To evaluate the preliminary efficacy of in reducing the frequency and severity of hot flashes in men on androgen deprivation therapy (ADT).
Background: The current standard treatment of prostate cancer is either surgery or radiation. Typically, this includes either the removal or radiation of the whole prostate gland. Many people now seek out focal therapy options to decrease the side effects of treatment. Until now, several forms of physical destruction with heat (thermal ablation), cold (cryotherapy), sound waves (HIFU), laser (FLA), and electrical energy (IRE). A new type of radiation (SBRT) may be an effective way to cure men of early-stage prostate cancer with fewer side effects than standard treatments. Objective: To see how people with untreated localized prostate cancer will respond to focal therapy with SBRT. Eligibility: People aged 18 years and older with untreated localized prostate cancer (prostate cancer which has not spread outside of the prostate gland). Design: - Participants will undergo screening including blood tests, an MRI, a PSMA PET/CT (18F-DCFPyL), and a biopsy. - Small, non-radioactive, gold seeds about the size of a grain of rice will be placed in and/or around the tumor to help target the radiation treatment. - Radiation (SBRT) will occur in 2 separate sessions about 1 week apart. No sedation is used, these sessions are painless. Each session will take about 1-2 hours. Participants can go home afterwards. - Follow-up will continue for 2 years with repeat scans (MRI and PSMA PET/CT) and blood (PSA) tests. - After two years, a biopsy will be done to understand the impact of this new treatment on prostate cancer.
This study aims to compare the novel single-port robotic partial prostatectomy to High-intensity focused ultrasound (HIFU) in patients with low to intermediate risk localized prostate cancer. These interventions have become acceptable focal therapies prevalent with beneficial oncologic outcomes and therefore need to be examined further.
To evaluate the effect of Osanetant on testosterone levels in men with prostate cancer within 28 days of therapy.
Prostate Stereotactic ablative body radiotherapy (SABR) is an established technique that delivers radiation in a non-invasive approach for men with prostate cancer. The treatment regimen is given in total of 5 fractions with one treatment per day at every other day or weekly sessions. Ultra-hypofractionated radiotherapy (UHRT) is an emerging monotherapy for localized prostate cancer however, several trials have observed demonstrating superior biochemical control of a two-fraction (HDR) over single-fraction approach. The study aims to compare an experimental shorter course of prostate ultra-hypofractionated radiotherapy (UHRT) that will deliver what is expected to be an equivalent amount of radiation as given in the standard 5 treatment regimen. UHRT is given in 2 treatments with one treatment a week for 2 consecutive weeks.
In localized intermediate- and high-risk prostate cancers (according to the NCCN classification), external radiotherapy delivering a "high" dose (dose equivalent 78-80Gy EQD2, α/ß=1.5) to the entire prostate volume combined with hormonal treatment, if necessary, has shown its benefit in terms of recurrence-free survival and is considered a standard treatment for this indication. Two fractionation modalities (number of sessions) are considered as therapeutic standards, conventional fractionation (39 to 40 sessions of 2 Gy in 8 weeks) and moderate hypo-fractionation (20 sessions of 3 Gy). More recently, phase II and two phase III studies have shown equivalence in terms of safety and efficacy of "extreme hypofractionation" (5 or 6 sessions) for these localized cancers, using stereotactic-type techniques. In view of the current data, this fractionation is considered a therapeutic standard in some countries (notably the USA) and an option in France. Delivering higher doses, beyond 80 GyEQD2 would improve tumor control, as demonstrated by randomized studies using brachytherapy, but at the cost of an increased risk of urinary toxicity. As an alternative to this combination of external radiotherapy and brachytherapy, an innovative approach of external radiotherapy has been developed to increase the therapeutic ratio of patients with localized prostate cancer, based on an escalation of the radiation dose (> 95 GyEQD2) focused on the macroscopic tumor or "dominant intra-prostatic lesion" (DIPL), the area most at risk of local recurrence after conventional dose radiotherapy (3). This external radiotherapy technique consists in performing a conventional dose irradiation on the whole prostate, with at the same time (at each session) a higher dose ("Boost") on the DIPL. This is a modality known as "simultaneous integrated boost" (SIB). The feasibility of simultaneous integrated boost (SIB) on the DIPL has been proven in external radiotherapy using conventional fractionation in the phase III FLAME study and the results in terms of long-term tumor control of this study showed a benefit in terms of biological recurrence-free survival. Feasibility in terms of tolerance has also been established for very hypofractionated regimens (5 sessions), in particular in the HypoFLAME study that followed the above-mentioned study . Multiparametric MRI (mpMRI) is used to identify and delineate the "dominant intra-prostatic lesion" (DIPL), and is the most commonly used modality in clinical studies that have evaluated SIB techniques. However, several studies show that PET imaging, particularly 68Ga-PSMA PET, significantly improves the correlation between the image-defined DIPL and histological data and may improve the likelihood of tumor control. A dosimetric simulation study also showed that dose escalation based on 68Ga-PSMA PET could improve local tumor control with an acceptable level of toxicity . Moreover, 68Ga-PSMA PET could be used to select the patients who could benefit most from this dose escalation, by excluding patients with lymph node or distant metastases.
The aim of this study is to compare clinically significant prostate cancer detection rate by the 4 biopsy methods: TRUS-guided, cognitive, fusion and transperineal template mapping biopsy. It is recommended to combine MRI-guided biopsy with systematic (TRUS-guided or transperineal template mapping biopsy) biopsy for high yield of prostate cancer diagnosis. Nevertheless, it remains unclear which biopsy combination is more precise for prostate cancer detection.
This phase II trial tests whether 177-Lutetium-PSMA given before stereotactic body radiotherapy (SBRT) works to improve cancer control rate in patients with 1-5 prostate cancer tumors that have come back after prior treatment (oligorecurrent). Radioactive drugs, such as 177-Lutetium-PSMA, may carry radiation directly to tumor cells and not harm normal cells. SBRT uses special equipment to position a patient and deliver radiation to tumors with high precision. This method may kill tumor cells with fewer doses over a shorter period and cause less damage to normal tissue. Giving 177-Lutetium-PSMA before SBRT may make the SBRT more effective.