View clinical trials related to Prostate Cancer.
Filter by:In North America, the number of new cases of prostate cancer increases every year. Many efforts have been made to develop more efficient and safer curative treatments for high risk prostate cancer patients. This phase III clinical trial is designed to compare the safety of a standard pelvic external beam radiation therapy (EBRT) combined with a high dose rate brachytherapy (HDRB) boost (direct insertion of radiation source over a period of minutes via flexible needles temporarily inserted in the prostate) to a shorter course of hypofractionated dose escalation radiotherapy (larger radiation dose per daily treatment) in patients with high risk prostate cancer. The investigators plan to recruit 296 patients across Quebec who will be randomized in either treatment plan.
This is a prospective single center trial to examine the rate of negative biopsy result and quality of life after focal ablation by radiofrequency energy. The primary evaluation involves assessing the rate of negative biopsy result using MR-US fusion biopsy six months after focal ablation of the prostate. Urinary and sexual quality of life will be assessed through validated measures. The hypothesis of our study is that focal ablative therapy will result in a greater likelihood of negative biopsy on followup biopsy than that observed in men who elect not to undergo therapy.
Evidence to justify the use of the pelvic field is lacking for men with high risk localized prostate cancer. An additional randomized study is needed in men with a potential risk of nodal involvement to test the hypothesis that the use of the pelvic field contributed to the benefit observed in those studies. This trial aims to compare the outcomes with whole pelvis RT and Prostate alone RT in patients with High risk, non metastatic Prostate cancer with a Lymph nodal >20% with Primary 5 year Biochemical failure free survival and Secondary Disease free survival, overall survival, Acute toxicity, Late toxicity and QOL Patients will be randomized to one of two arms Arm 1 Whole pelvis radiotherapy and Arm 2 Prostate only radiotherapy. The Dose prescription will be 66 Gy in 25 fractions will be prescribed for the prostate PTV in Arm 2 an additional 50 Gy in 25 fractions for nodal PTV in patients in Arm 1. An overlap volume at rectal-prostate interface will receive 64 Gy/25#. All patients will receive hormone therapy starting at least 8 weeks prior to the beginning of radiotherapy. They will continue the hormone therapy and later for a total duration of 2-3 years.
The main purpose of study is to compare the effectiveness of Hypofractionated IMRT boost Radiotherapy to Conventional IMRT boost Radiotherapy for high-risk prostate cancer patients combined with Androgen Deprivation Therapy.
The purpose of this study is to test the ability of a new PET scan radiotracer, called FDHT (stands for [18F] Dihydro-Testosterone), to better find and monitor prostate cancer. Radiotracers are a type of drug that carries small amounts of radioactivity that can be seen by the PET scanner. FDHT is a radiotracer that looks for a protein which is present in almost all prostate cancer cells. The investigators want to find out if we can find and monitor changes in cancer using a FDHT PET scan.
Background: Bracco has released the VueBoxTM-Prostate software, aimed at distinguishing prostate cancer from prostate benign peripheral zone (PZ) at contrast-enhanced ultrasound (CEUS) using SonoVue® as contrast agent. The software analyses the ascending phase of enhancement (wash-in) and calculates the mode and the dispersion (sigma) of the wash-in rate in a given region of interest. The diagnosis of cancer is based on the combination of these two parameters. The main objective of the study is to evaluate the diagnostic value of the VueBoxTM-Prostate software in distinguishing prostate cancer from normal PZ at contrast-enhanced ultrasound (CEUS). The secondary objective is to evaluate the diagnostic value of the wash-out rate, the time to peak, the transit time and the area under the enhancement curve (parameters not used by the VueBoxTM-Prostate software) in distinguishing prostate cancer from prostate benign peripheral zone at contrast-enhanced ultrasound (CEUS). The study will enroll patients referred for prostate biopsy. The US transrectal probe will be inserted and the local anesthesia performed as per the institution's standard of care protocol. Then, the biopsy operator will choose an axial plane likely to contain cancer (e.g. based on MRI or Digital rectal examination results). Half a vial (2.4 ml) of SonoVue® will then be injected and the ultrasound enhancement of this plane will be recorded during 2 minutes while the biopsy gun is already in place. Then, the biopsy will be taken while the recording is still on, so that it will be possible to calculate quantitative enhancement parameters at the exact location of the biopsy. Then, the operator will choose a plane that is likely not to contain cancer in the opposite prostate lobe and the same process will be repeated with injection of the second half of the vial. The rest of the biopsies will be performed as per the institution's standard of care protocol. The two recordings will be sent to Bracco's Research center in Geneva in order to: - Predict the biopsy result (cancer vs benign) based on the VueBoxTM-Prostate software results - Calculate the wash-out rate, the time to peak, the transit time and the area under the enhancement curve at the biopsy location. The two biopsy samples performed after the injection of SonoVue® (as the rest of the biopsy samples) will be processed and analysed at the institution's department of Pathology and their results will be blinded to the Bracco's Research center. The correlation between the biopsy results, the VueBoxTM-Prostate software results and the wash-out rate, time to peak, transit time and area under the enhancement curve will be performed by the study investigator. In total, 130 patients will be included (hypotheses of 20% of malignant biopsy cores and of an area under the ROC curve of 0.85 for the VueBoxTM-Prostate software).
Androgen deprivation therapy (ADT) is widely used as standard therapy in the treatment of locally advanced and metastatic prostate cancer. Hot flushes and night sweats are one of the main side-effects of ADT. There are no successful and well-tolerable treatment options available. A possible treatment for hot flushes is stellate-ganglion block (SGB), used as a means of interrupting parts of the sympathetic nervous system involved in temperature regulation. Objective of this study: To assess the short-term efficacy of stellate ganglion block on hot flush reduction versus sham procedure
To assess the early histological outcomes of tissue ablation, adverse events and genitourinary side-effect profile of focal radiofrequency ablation using a coiled bipolar device to treat localized prostate cancer in men with clinically significant prostate cancer.
GX301 is an experimental therapeutic vaccine directed against human telomerase, an enzyme playing an essential role in cancer cell proliferation. This clinical trial will test three different GX301 administration regimens in castration-resistant prostate cancer patients who have achieved response or disease stability with first-line docetaxel treatment. This is aimed at identifying an optimal vaccination regimen. The three regimens will primarily be compared for their efficacy and safety in inducing vaccine-specific immunological responses over a period of 6 months following treatment initiation. In addition, patients will be observed for the occurrence of disease progression and for their vital status up to 24 months.
The robot-assisted surgery allows three-dimensional view, detailed access of small structures, depth perception and articulated movements with wide latitude. Thinking about the inclusion of this branch of surgical outcome ICESP encouraged the training of their doctors and other health professionals , and has three tutors in the area of robot- assisted laparoscopic surgery , and various medical clinical staff , already trained , and already perform the procedure in other centers . The da Vinci ® Surgical System ( only existing in the World market) , consisting of one or two consoles for the surgeon and a tutor if necessary was adopted. Ergonomically designed, a stand next to the patient , with four interactive robotic arms , one of them , a vision system for high performance and the other three for exclusive EndoWrist ® instruments . Driven by the latest robotic technology , computer programs , frictionless transmission of manual controls , movements in scale and filtered made by the surgeon in the da Vinci ® System console are translated into precise movements of the instruments EndoWrist ® For surgeons , the da Vinci ® System offers superior 3D viewing with larger surgical precision ergonomic comfort and dexterity . For hospitals , the da Vinci ® Surgical System enables clinical and economic benefits of minimally invasive surgery are applied to a broader base of patients cirúrgicos.The main objective is to evaluate the safety and effectiveness of robotic surgery in the surgical treatment of cancer in operations below, as their specialties : Digestive , Urology , Gynecology , Head and Neck and Thorax . This is a prospective study lasting 36 months , where 1120 patients with surgical diseases in programming for the following operations will be studied : transthoracic esophagectomy ; subtotal gastrectomy with lymphadenectomy ; partial pancreatectomy ; resection of the rectum ; prostatectomy ; cystectomy ; partial nephrectomy ; hysterectomy with or without pelvic and paraaortic lymphadenectomy ; resection of malignant tumors of the mouth and orofaringolaringe and lung lobectomy . Patients will come from the outpatient services of the Institute of Cancer of São Paulo - ICESP