View clinical trials related to Prostate Cancer.
Filter by:The primary objectives of this study are to examine sleep, exercise, and nutrition in prostate cancer.
Pathological assessment of prostate tissue
The purpose of this study is to evaluate the efficacy, quality of life and safety of switching from monthly (3.6 mg) or quarterly (10.8 mg) goserelin acetate (Zoladex®) to semiannual leuprorelin acetate 45 mg (Eligard® 45 mg) in prostate cancer patients with adequate hormonal castration level (plasma testosterone levels ≤50 ng/dL).
The purpose of this study is to collect blood samples to investigate the prognostic performance of the STHLM3 test in a population of Swiss and German men suspected of harbouring prostate cancer based on a combination of elevated PSA levels (e.g. >2.5 ng/ml) and/or pathological digital rectal examination and/or MRI-findings.
This is an observational cohort study with a non-concurrent comparison group evaluating the use of a digital decision support tool (MiProstate/ISPM) at pre-prostatectomy, multidisciplinary conferences.
The objective of this study is to investigate possible factors that will affect the choice of androgen deprivation therapy in prostate cancer patients. This is a cross-sectional study performed in Prince of Wales Hospital in Hong Kong. One hundred patients will be recruited for this study.
The present study is the last part of a larger project investigating the health, quality of life and function of men having received radical treatment for prostate cancer in 2014-2018. In this study, physical function and level of physical activity will be tested and registered in a selection of older men who participated in the foregoing parts of the project. Comparisons will be made to similar data from a population-based cohort, matched on age and education.
Patients will receive a single dose of 68Ga-PSMA-11 and undergo a PET/CT or PET/MRI imaging study.
Prostate cancer is a type of cancer that can occur in men, especially in the fifth and sixth decades of their lives, and various side effects occur depending on the treatments applied in the diagnosed patients. The treatments applied and the decreased level of physical activity also cause a decrease in the quality of life. Recent studies have focused on treatment-related side effects. Before treatment planning, there is a need for clinically validated clinical evaluations specific to prostate cancer patients in order to determine the current status of the patients or to measure the effectiveness of the treatment applied. In addition, tests with a minimal detectable amount of change will be guiding in order to understand that the effectiveness of the applied treatment is significant. The aim of our study is to investigate the validity, reliability and minimal detectable changes of the two-minute walk, sit up and time up and go tests validated in different disease groups for patients with prostate cancer.
Preventing pre-surgical stress can help patients achieve positive outcomes on health and well-being. However, very few patients receive adequate stress relief support prior to a surgical procedure. Provision of education and information about the surgery can be a crucial component of the preoperative experience and is inversely related to levels of preoperative anxiety. However, resource constraints make face-to-face education sessions untenable, given cost considerations and time investment by trained health personnel. Interventions based on mobile health (mHealth) technologies, geared towards increasing familiarity with surgical procedures and hospital environments have been shown to help patients feel informed about possible benefits and risks of available treatment options. mHealth apps and Virtual Reality (VR) can offer patients experience in the perioperative environment that can be helpful in empowering patients and enhancing a more positive experience, while reducing stress. However, available applications focus only on providing informative content, neglecting the importance of patient empowerment with a more robust educational curriculum. According to this, the Software as a Medical Device (SaMD) CARINAE, aims to support patients and caregivers during the whole perioperative process. SaMD CARINAE consists of an mHealth mobile application for patients and caregivers, a Virtual Reality headset for patients, and a web application for healthcare professionals.