View clinical trials related to Cancer.
Filter by:The MR BIO study aims to understand the changes in the tumour and normal tissues during a course of radiotherapy. This is accomplished by studying the MR images taken during each treatment session on the MR Linear accelerator (MR Linac). The overarching hypothesis is that changes in MR imaging and biological parameters from blood, tissue, or urine biomarkers can be measured during radiotherapy and associated with clinical outcome. The MR Linac is a new radiotherapy machine with an on board MR scanner. This enables us to take images with high resolution and target the tumours more precisely and also reduce the dose to normal tissues. All patients undergoing treatment in the MR Linac at the Christie hospital will be considered for enrolment regardless of tumour site being treated. The study participants will receive the standard of care treatment for their disease condition. In addition, they will be requested to give weekly blood and urine samples during the course of radiotherapy and at first follow up. On completion of radiotherapy treatment, the participants will continue to be on standard of care follow up protocol with the treating oncologist. A small cohort of ten healthy volunteers will also be recruited to the study to develop and select some of the MR sequences only; they will not provide blood or urine samples. The healthy volunteers will be scanned for no more than one hour per session for a maximum of two sessions in total. These optimised sequences can then be used in the patient cohort.
The main purpose of this study is to determine the treatment effects, feasibility, and acceptability of an internet-based cognitive-behavioral therapy intervention to improve the sleep of Portuguese cancer survivors with insomnia.
The purpose of this study is to examine whether nature-based activities provide benefits for breast cancer survivors. The investigators want to know whether a nature-based exercise program is feasible. Women who were diagnosed with breast cancer and have completed cancer treatment will be recruited for the main study. The main study will enroll up to 20 breast cancer subjects in total. This intervention will also include a sub-study examining the same outcomes among adolescents and young adult (AYA) subjects who were diagnosed with cancer (any type) and have completed cancer treatment. The sub-study will enroll up to 20 AYA (ages 18-39) subjects.
The purpose of this study is to evaluate and compare the changes by two modalities: Imaging by Strain by Speckle Tracking and Magnetic Resonance versus soluble markers of cardiac dysfunction as early predictors of cardio-toxicity in cancer patients receiving low or high doses of radiotherapy.
Millions of cancer patients each year receive chemotherapy causing adverse side effects that lower quality of life without prolonging it. Reliable identification of ineffective therapies can eliminate needless human suffering while increasing overall probability of positive response to treatment. Chemotherapy resistance profiling entails testing whether a patient exhibits strong resistance to a therapy prior to its final selection by the oncologist. The Onco4D® chemotherapy selection assay has recently emerged as means to measure the response of intact tumor biopsies to applied therapeutics by using Doppler detection of infrared light scattered from intracellular motions inside living tissue (known as Motility Contrast Tomography or MCT). Several studies have shown this phenotypic profiling technique to offer high accuracy predicting response and resistance to chemotherapy[1-5].
This is a single arm, pre-post, pilot study assessing the feasibility and acceptability of the ALIGN intervention in metastatic adult cancer patients discharging to local area SNFs.
Based on recent data, COVID (COV) vaccination in cancer patients (pts) is strictly recommended. For oncologic pts,2 types of m-RNA vaccines have been approved: BNT162b2 (Pfizer, Biontech) and mRNA-1273 (Moderna, NIAID). In immunocompetent population, the administration of 2 doses confers 95% protection against COV. However, protection conferred by vaccines, adverse events (AEs) and correlations with antiblastic treatments are unknown in cancer pts.
This study aims to compare conventionally acquired Left Ventricle Ejection Fraction (LVEF) and Global Longitudinal Strain (GLS) data to Artificial Intelligence (AI) driven automated processing of 2 dimensional contrast and 2 dimensional non-contrast resting transthoracic echocardiograms for application in the assessment of patients undergoing chemotherapy with cardiotoxic drugs. This is a single-centre retrospective study which utilizes echocardiographic DICOM image and meta-data datasets received from a Canadian site. Data processed using the AI driven automated processing will be compared to conventionally acquired LVEF and GLS measurements and results will be analysed to determine accuracy and precision.
The purpose of this study is to test the feasibility of a virtual, group mind-body resiliency intervention adapted to target fear of recurrence (FOR) among cancer survivors.
This study uses a novel, recently developed unconventional radiotherapy technique which consists of three high-dose fractions directed to special segments of unresectable bulky tumors.