There are about 10460 clinical studies being (or have been) conducted in Australia. The country of the clinical trial is determined by the location of where the clinical research is being studied. Most studies are often held in multiple locations & countries.
This is a double blind, randomised, placebo-controlled trial to evaluate orally-dosed Testofen (a specialised extract of Trigonella foenum-graecum (Fenugreek) seed) compared to placebo on post COVID-19 symptoms in otherwise healthy participants 18 years and over.
As the HGT-HIT-046 (NCT01506141) and SHP609-302 (NCT02412787) studies will be closed, this post-trial access (PTA) program provides TAK-609 to participants in these studies for whom the benefit:risk ratio of continued treatment with idursulfase-IT remains positive.
Researchers are looking for a better way to treat men at high-risk of biochemical recurrence (BCR) of prostate cancer. BCR means that in men who had prostate cancer and were treated by either surgery and/ or radiation therapy, the blood level of a specific protein called PSA rises. PSA is a marker of prostate cancer cells activity. The PSA increase means that the cancer has come back even though conventional imaging such as computed tomography (CT) scans, magnetic resonance imaging (MRI) and bone scans does not show any lesion of prostate cancer. Recently a more sensitive imaging method called prostate-specific membrane antigen [PSMA] positron emission tomography [PET]) /computed tomography [CT]) scan may identify prostate cancer lesions not detectable by conventional imaging. Men with BCR have a higher risk of their cancer spreading to other parts of the body, particularly when PSA levels raised to a certain limit within a short period of time after local therapies. Once the cancer spreads to other parts of the body, it can become even harder to treat. In men with prostate cancer, male sex hormones (also called androgens) like testosterone can help the cancer grow and spread. To reduce androgens levels in these patients, there are treatments that block androgens production in the body called androgen deprivation therapy (ADT). ADT is often used to stop prostate cancer. Another way to stop prostate cancer growth and spread is to block the action of androgen receptors on prostate cancer cells called androgen receptor inhibitors (ARIs). The new generation ARIs including darolutamide can block the action of androgens receptors and are available for the treatment of prostate cancer in addition to ADT. It is already known that men with prostate cancer benefit from these treatments. The main objective of this study is to learn if the combination of darolutamide and ADT prolongs the time that the participants live without their cancer getting worse, or to death due to any cause, compared to placebo (which is a treatment that looks like a medicine but does not have any medicine in it) and ADT given for a pre-specified duration of 24 months. To do this, the study team will measure the time from the date of treatment allocation to the finding of new cancer spread in the participants by using PSMA PET/CT, or death due to any cause. The PSMA PET/CT scans is performed using a radioactive substance called a "tracer" that specifically binds to the prostate-specific membrane antigen (PSMA) which is a protein often found in large amounts on prostate cancer cells. To avoid bias in treatment, the study participants will be randomly (by chance) allocated to one of two treatment groups. Based on the allocated treatment group, the participants will either take darolutamide plus ADT or placebo plus ADT twice daily as tablets by mouth. The study will consist of a test (screening) phase, a treatment phase and a follow-up phase. The treatment duration is pre-specified to be 24 months unless the cancer gets worse, the participants have medical problems, or they leave the study for any reason. In addition, image guided radiotherapy (IGRT) or surgery is allowed and your doctor will explain the benefits and risks of this type of therapy. During the study, the study team will: - take blood and urine samples. - measure PSA and testosterone levels in the blood samples - do physical examinations - check the participants' overall health - examine heart health using electrocardiogram (ECG) - check vital signs - check cancer status using PSMA PET/CT scans, CT, MRI and bone scans - take tumor samples (if required) - ask the participants if they have medical problems About 30 days after the participants have taken their last treatment, the study doctors and their team will check the participants' health and if their cancer worsened. The study team will continue to check this and regularly ask the participants questions about medical problems and subsequent therapies until they leave the study for any reason or until they leave the study for any reason or until the end of the study, whatever comes first.
SNP318 is developed to treat neurodegenerative diseases including Alzheimer's disease. In the current phase 1 study, the IP is tested in healthy volunteers, and the purpose is to investigate the safety, tolerability, and PK of single and multiple ascending oral doses of SNP318.
A study to investigate the safety, tolerability, and pharmacokinetics of the monoclonal antibody VYD222 in healthy adult participants.
The purpose of the study is to evaluate the efficacy, safety, tolerability and pharmacokinetic (PK) profile of prophylactic SerpinPC in participants with Hemophilia B with inhibitors, as part of the SerpinPC registrational program.
The purpose of the study is to evaluate the efficacy, safety, tolerability and pharmacokinetics of prophylactic SerpinPC administered subcutaneously (SC) to participants with severe hemophilia A (HemA) (with or without inhibitors) or moderately severe to severe hemophilia B (HemB) (without inhibitors) as part of the SerpinPC registrational program. This study consists of 3 parts: Part 1: dose-justification phase, Part 2: dose-confirmatory phase, Part 3: extension phase for participants who complete either Part 1 or Part 2. This adaptive design study has a randomized dose-justification component to investigate the efficacy and safety of SerpinPC as a therapeutic option, principally for participants with HemB without inhibitors. SerpinPC has a novel mechanism of action compared with marketed treatments and those that are in development.
The purpose of this study is to evaluate the safety, pharmacokinetics (PK), and activity of divarasib combined with other anti-cancer therapies in participants with previously untreated, advanced or metastatic non-small cell lung cancer (NSCLC).
First line treatment with combination rituximab and BMS-986369 with, or without nivolumab, in patients in previously untreated Follicular Lymphoma
Preliminary open-label studies have suggested that non-invasive brain stimulation methods of both transcranial direct current stimulation (tDCS) and repetitive transcranial magnetic stimulation (rTMS) have clinical benefits for improving psychological and eating disorder related symptoms, which can persist at long-term follow ups after acute treatment (i.e., at 6 and 12 months). Here the investigators propose to conduct the first double-blinded, randomised sham-controlled study to directly compare the therapeutic effectiveness and acceptability of both treatment modalities. Participants will be recruited and treated at one inpatient setting (Northside Clinic, St Leonards, Sydney). This facility is one of the largest specialist eating disorder settings in Australia with approximately 130 new admissions every year (2019 data). All participants who give consent and who fulfill the eligibility criteria will be randomised to receive active tDCS, sham (placebo) tDCS, active rTMS or sham rTMS over 8 weeks. Trial participants, their treating psychiatrist, ward staff, and a study staff member (who will conduct blinded assessments of mood secondary outcome measures) will be blinded after assignment to intervention until the database is locked and the primary analysis completed. All participants will complete assessments of eating disorder symptoms, mood, psychological symptoms, neurocognition and functioning at baseline, end of week 4, 8 and 20. Expected outcomes include data on the relative effectiveness and acceptability for both treatment modalities in the inpatient and at-home setting (i.e., for at-home tDCS). The investigators expect that both active treatment arms will produce clinical benefits and have high acceptability, and that clinical benefits will be maintained with long-term at-home tDCS continuation treatment. These outcomes have potential to assist in reducing hospital stay and emergency re-admissions and improving day to day functioning in participants. Health economic data for both treatment modalities will additionally have utility from a service perspective, given the disparity in resource requirements between the two treatments (TMS, tDCS) in terms of costs for patients and access to treatment for people living in remote and rural areas (i.e., for at-home tDCS).