View clinical trials related to Prostatic Neoplasms.
Filter by:This study is a phase I study of a cell based prostate cancer therapy, Autologous Lymphoid Effector Cells Specific Against Tumor-cells (ALECSAT). Safety and tolerability of a single dose has been shown in 13 prostate cancer patients. In this study 20 prostate cancer patients will receive 3 doses of the ALECSAT treatment. In this therapy specific cells from the patient's own immune system are isolated, activated and re-administered to the patient to boost a specific immune response against the cancer cells. The aim of the study is to show safety and tolerability for repeated dosing of this type of therapy. It is the hypothesis that the cells administered during the therapy will attack the tumor cells and in this way stop or slow down the progression of disease.
This is a single-center, open-label, non-randomized Phase I study of weekly Cabazitaxel with concurrent intensity modulated radiation therapy (IMRT) (A type of 3-dimensional radiation therapy that uses computer-generated images to show the size and shape of the tumor. Thin beams of radiation of different intensities are aimed at the tumor from many angles.) and androgen deprivation therapy (Treatment to suppress or block the production or action of male hormones) in patients with locally advanced prostate cancer. It is hoped that by adding Cabazitaxel to the standard IMRT, greater local disease control can be achieved and eventually the cure rate can be increased. After this study, the maximally tolerated dose of Cabazitaxel that could be used in combination with radiation can be found. Men with locally advanced high risk prostate cancer represent a group of patients for whom cure is potentially achievable utilizing a multimodality approach. More aggressive treatment upfront with chemotherapy and ADT may improve the long term disease control. We hypothesize that Cabazitaxel may be added to radiation therapy safely, and we anticipate that this novel approach will improve disease control and eventually improve survival for locally advanced prostate cancer patients.
This trial will facilitate access to denosumab for adults with advanced cancer who have participated in a denosumab phase 3 study until denosumab is approved and available for sale.
This is a single centre prospective observational noninterventional study of men with histological confirmed prostate cancer, high risk disease and not positive for metastatic disease planned to receive Radiotherapy and 18 months of Androgen Deprivation Therapy (ADT). Although ADT improves the chance of cure, it can also have many side effects. One of these is bone mineral density loss. When this is advanced, it is called osteoporosis. Men with osteoporosis have a higher chance of getting fractures of bones such as the hip and spine. Currently, the best way to measure for osteoporosis is to do a bone mineral density scan using a DEXA scanner. The primary objective of this study is to see if baseline Magnetic Resonance Imager (MRI) and a Computer Tomogram (CT) combined with clinical factors predicts which men are at greater risk of accelerated ADT induced bone mineral density loss than baseline DEXA scanning alone. The data from the patients will be used to construct a model predicting annual rate of bone loss based on baseline imaging, clinical and biochemical characteristics. Secondary aims for this study are as follows: - Evaluating the feasibility, toxicity (acute and late) and efficacy (5 year biochemical control by the Phoenix definition)of multimodality therapy with hypofractionated radiotherapy (giving a larger dose of radiotherapy over a shorter time 5½ weeks compared with a standard 8 week approach). Although used overseas, this 5½ week regimen has not been used widely in Australia, and we would like to see if we gain similar results here as have been reported from the US. - Feasibility and efficacy of a risk adapted duration of neoadjuvant hormonal therapy. Usually, ADT is given for between 19 months before radiotherapy is started but there is no agreement as to which duration is best. This trial aims to tailor the duration of ADT prior to radiotherapy based on blood PSA test results. - Prognostic value of circulating tumour cells (CTCs). This is a blood test which can detect cancer cells in the blood which has been used for patients with metastatic cancer. The presence of CTCs in men with prostate cancer correlated with poorer overall survival. Potentially, high risk prostate cancer patients with CTCs detected may represent a very high risk group and could therefore warrant treatment intensification. - To correlate bone marrow changes on MRI with changes in blood counts and patient reported fatigue. Measuring bone marrow may help in predicting not just which patients are at risk of losing bone faster but also of becoming anaemic, and suffering fatigue. A correlation may better explain some of the toxicities associated with ADT. - Implementation of a nomogram based radiotherapy target delineation algorithm. This trial aims to use a decision making tool called a nomogram to help tailor the area to treat in a more standard way.
This is a prospective, open label 1 arm study, multicentre, Phase I/II clinical safety study. The trial is designed to gain initial safety and efficacy data on pelvic lymph node radiation with simultaneous integrated boost to prostate in high risk prostate cancer patients.
Prostate cancer is the most common cancer among men in the United States. Through early detection and improved local therapies a large number of men will be cured. The clinical needs include early detection, accurate initial staging and detection of local recurrence or metastases in order to permit application of the most appropriate therapy. Therapeutic monitoring and prognostic assessment are equally important. Imaging can play an important and crucial role in meeting these clinical needs. Positron emission tomography (PET) imaging has gained an important role in the clinical management of cancer patients. 18F-DCFBC is a novel low molecular weight prostate specific membrane antigen (PSMA)-based radiopharmaceutical which is radiolabeled with a fluorine-18 positron emitter for PET imaging. Preclinical mouse prostate cancer tumor model imaging studies of 18F-DCFBC demonstrate high specific uptake in PSMA expressing prostate cancer cells. The investigators will assess the hypothesis that 18F-DCFBC, a new positron emission tomography (PET) radiopharmaceutical may possess pharmacokinetic and pharmacodynamic properties that will represent an advance in imaging prostate cancer. This initial phase I study will determine the biodistribution, pharmacokinetics, and prostate specific tumor uptake in patients with metastatic prostate cancer.
This study evaluates the efficacy of a tailored telephone intervention to promote informed decision making about prostate cancer testing among predominantly immigrant black men.
Prostate-specific Membrane Antigen Antibody-Drug Conjugate (PSMA ADC) 1301EXT is an open-label, nonrandomized, phase 1 extension study of PSMA ADC administered IV in subjects with progressive CMPC that has progressed after prior taxane therapy. Subjects who have participated in PSMA ADC 1301 and who, in the opinion of the PI, are likely to benefit from continued treatment with PSMA ADC will be enrolled in PSMA ADC 1301EXT.
Prostate-specific Membrane Antigen Antibody-Drug Conjugate (PSMA ADC) 1301 is an open-label, dose-escalation phase 1 study of PSMA ADC administered IV in subjects with progressive, castration-resistant, metastatic prostate cancer that has progressed after prior taxane therapy. For all subjects, PSMA ADC will be administered in four repeating cycles.
Context: Prostate cancer is the most common non-cutaneous cancer and the second most common cause of cancer-related deaths in European and North-American men. After external radiotherapy or brachytherapy, the Prostate Specific Antigen (PSA) value is often fluctuating and PSA nadir may only be reached after 2 years or more and may remain detectable several years after the completion of radiation. Moreover, PSA bounces and blips render patients and physicians very anxious about any possibility of a relapse. In this context, biomarkers that could predict the response to radiation earlier than PSA for patients with prostate cancer appear long overdue. Magnetic Resonance Spectroscopy at 3 Tesla without endorectal coil is a non invasive procedure which allows quantification of metabolites such as Choline, Creatine, Polyamines and Citrate within the prostate gland. Objectives: The investigators are conducting a French prospective study on the Evaluation of the Response to Irradiation with MR Spectroscopy (ERIS). Their purpose is to monitor the early response of radiation with 3D MR Spectroscopy during the first year after completion of radiation and its impact on biochemical control. Therefore, the ERIS trial aims to investigate whether or not there could be a correlation between the time course of PSA and that of Choline and Citrate.