View clinical trials related to Cancer.
Filter by:Phase 1 study evaluating the safety and tolerability of YS-ON-001 in patients with advanced solid tumors who have limited available treatment options, and exploratory evaluation of the pharmacological effect and efficacy of YS-ON-001. The study will be conducted in two parts: dose escalation and cohort expansion
The aim of this study is to examine whether self-monitoring PA with the RunKeeper app with additional physiotherapy coaching is superior in improving patients' self-reported leisure-time PA compared with usual care in cancer patients after 12 weeks. This is a single-center, prospective, two-armed, randomized controlled trial. Adult cancer patients and cancer survivors are randomized in one of the two study arms, (Group A) RunKeeper app + physiotherapy coaching or (Group B) usual care. Patients assigned to the intervention group will be instructed to use the RunKeeper app for 12 weeks to self-monitor leisure-time PA. In addition, patients will be educated about the health risks of a sedentary lifestyle, inactivity and (when applicable) other unhealthy lifestyle behaviors (e.g. unhealthy diet, overweight or obesity, sun exposure, alcohol intake). Benefits of a behavior change, becoming physically active and pursuing a healthy lifestyle will be explained by a trained physiotherapist who will also coach the patient during the PA program. The biweekly physiotherapy coaching starts at baseline and will follow a structured sequence of strategies to change patients PA behavior which will contribute to the adoption of leisure-time PA in patients daily living, so the program will be optimally tailored to the patients capabilities and preferences. The primary endpoint is to examine the effectiveness of the RunKeeper use with additional physiotherapy coaching in improving patients' leisure-time PA compared with usual care in cancer patients as measured by the PASE subscale leisure-time Sum Score at baseline, 6, 12 and 26 weeks.
This study will test the effectiveness of integrating an evidence-based model of home-based palliative (HBPC) within primary care clinics on patient and caregiver outcomes. The investigators will conduct a randomized controlled trial, randomizing 1,155 seriously ill patients (and approximately 884 family caregivers) who receive primary care from 30-40 regional accountable care organizations (ACOs) in California to one of two study groups: HBPC or enhanced usual care (EUC). Follow-up data will be collected via telephone surveys with patients at 1- and 2-months and with caregivers at 1- and 2-months, and, as appropriate, following the death of the patient.
Evaluation of the efficacy of the combination of olaparib and trabectedin in adult patients with locally advanced/metastatic solid tumors that failed standard treatment and whose molecular sequencing tumor profiles show homologous recombination repair (HRR) defects. The primary objective is to show superior disease control rate in patients with HRR-deficient tumors treated with olaparib and trabectedin compared to treatment according to current guidelines (physician's choice). This trial aims to establish whether the PARP-dependency of HRR-deficient tumors across entities can be exploited for therapeutic benefit.
This study is a Phase 1-2 open-label dose escalation study of the immuno-activating monoclonal antibody APX005M administered in combination with nivolumab to adult subjects with non-small cell lung cancer or metastatic melanoma. The Phase 1 portion is intended to establish the maximum tolerated dose and the recommended phase 2 dose of APX005M when administered in combination with nivolumab. The Phase 2 portion of the study will evaluate safety and efficacy of the combination.
Fatigue is a troublesome symptom for breast cancer patients, which might be mitigated with exercise. Cancer patients often prefer their oncologist recommend an exercise program, yet a recommendation alone may not be enough to change behavior. Our study will determine whether adding an exercise DVD to an oncologist's recommendation to exercise led to better outcomes than a recommendation alone.
Loss of muscle mass (scientific term: cachexia) affects about 80% of patients with advanced cancer and impacts their prognosis by decreasing tolerance and response to treatment, decreasing quality of life and survival. The prognosis in these patients depends directly on the importance of the loss of muscle mass. Preserving it is therefore an essential therapeutic objective. It is therefore important to understand perfectly the mechanism of this muscular loss. The accumulation of fat in the muscle (scientific term: myosteatosis) could be a mechanism responsible for this loss of muscle mass. It is indeed a hypothesis proved on animal models. Moreover, it has recently been shown that more the cancer patient loses weight, more his muscle contains fat. This lets think that this deposit of fat in the muscle would be directly related to the loss of muscle mass. All of these observations could not be clearly established in humans and investigators are seeking by this study to illuminate these mechanisms at the human level. A better understanding of these mechanisms would allow investigator to set up targeted treatments against the accumulation of fat in the muscle, which would significantly improve the quality of life of patients with cancer of the aerodigestive pathways and their chances of recovery. The MYOMEC study includes the inclusion of healthy patients (to form a control group) but also patients with cancer of the upper aero-digestive tract. The study will be divided into two parts: clinical examination and nutritional evaluation the day before surgery at the time of the participants' admission to hospital and then the biological samples during surgery. The nutritional examination consists in collecting the morphological data of the patient, namely: Its weight, size, calculation of the body mass index Tests of muscular strength (wearing weight of 1, 2 and 3 kilos) Measurement of the percentage of fat mass and lean mass (Impedancemetry) In this study, participants benefit from the following investigations: - Clinical examination complete with elaboration of the clinical nutritional status, realized the day before the surgical intervention in hospitalization. - Elaboration of the radiological nutritional status by a complementary analysis of the scanner envisaged in the balance of extension of the disease - Performing surgical site sampling during surgery without additional invasive procedure and under general anesthesia. It will be realized: A muscle biopsy of the sterno-cleido-mastoid muscle (neck muscle) (maximum volume 5 mm3), A tumor biopsy (maximum volume 5mm3). A blood sample (maximum volume 5ml) No invasive procedure, supplemental examination or additional consultation is required for the whole off-set study for the extensive muscular percutaneous biopsy regarding which additional patient agreement will be required. No additional follow-up is required when participating in this study. Participation in this study does not entail any particular constraint or additional treatment. The duration of the patient's participation is defined as follows: from the date of the preoperative consultation or from the consultation of announcement until his / her discharge from hospital. The exclusion period defined in this study extends from the date of inclusion of the patient to the date of the surgical procedure, during which time the patient can not participate in another clinical research protocol.
The goal of this study is to reduce preference sensitive, unnecessary daily imaging during radiation treatment in which a pre-planned quality improvement default option for radiation treatment prescriptions will be introduced throughout the network of Penn Radiation Oncology.
This is a Phase I evaluation to determine the usefulness of a new brachytherapy device that utilizes active components (Palladium-103) of standard devices in a novel configuration. This study may benefit resectable pancreatic cancer patients by reducing the radiation dose to adjacent critical structures, while giving a therapeutic dose to diseased tissue, such as at a surgical margin.
Tobacco and alcohol use present multiplicative risk for aerodigestive cancers. Reducing alcohol consumption improves smoking cessation outcomes and reduces cancer risk. Risky alcohol consumption and smoking are often treated separately despite concurrent treatment potentially leading to better outcomes for each. However, no rapidly scalable program exists for combined interventions in primary care clinics spread across wide geographic areas. This cluster randomized trial aims to report on the effects of a novel clinical decision support system (CDSS) on intervention rates by primary care practitioners addressing risky alcohol use in a smoking cessation program. The investigators will be implementing a clinical decision support system (CDSS) in 221 primary care sites participating in the Smoking Treatment for Ontario Patients (STOP) program across Ontario, Canada. Sites will be blindly allocated to one of two clinical decision support systems guiding practitioners to provide a risky alcohol use intervention to smokers attempting to quit using nicotine replacement therapy (NRT). Risky alcohol use is defined as drinking above the Canadian Cancer Society's low-risk drinking guidelines. Primary analysis will measure the proportion of risky drinkers offered an alcohol intervention in each CDSS arm at baseline. Patients will be contacted by phone or email to track smoking cessation and alcohol consumption rates at 6- and 12-month follow up. Upon completion of the trial, the effect of different clinical decision support systems on practitioner behavior, and on client tobacco and alcohol use, will be discussed. If the CDSS successfully promotes SBIRT for risky alcohol use in a primary care setting and/or improves patient-level outcomes, including smoking cessation rates and alcohol use reduction, this tool can be used as a model for other web-based behavior change interventions integrated into primary care practice.