View clinical trials related to Cardiotoxicity.
Filter by:The purpose of this study to find out whether an intensive approach to treating high blood pressure during breast cancer treatment is safe and more effective than standard blood pressure treatment at lowering blood pressure levels and the risk of cardiotoxicity in patients with cancer. Other studies have shown lowering blood pressure improves the health of patients. However, these studies have not included people with cancer. The PROTECT trial is testing a treatment strategy regarding intensive versus standard SBP goals, and is not testing specific medications.
The goal of this clinical trial is to evaluate the effect of spironolactone in the primary prevention of cardiotoxicity in cancer patients who are undergoing chemotherapy with anthracycline within 12 months. The main question it aims to answer is: • Does spironolactone reduce the incidence of cardiotoxicity in patients undergoing anthracycline chemotherapy? Participants will: - Be cancer patients over 18 years starting treatment with anthracycline; - Be randomized to receive either spironolactone or a placebo for 1 year; - Undergo assessments of their left ventricular ejection fraction (LVEF), global longitudinal strain, and cardiac biomarkers over the 12-month period. Researchers will compare the spironolactone group to the placebo group to see if cardiotoxicity incidence differs between the two.
Early detection and thus rapid therapy of cardiotoxicity related to chemotherapy are essential for restoring cardiovascular function. The complete recovery of the cardiovascular system decreases with time to identify the presence of cardiotoxic damage. The project aims to define new biomarkers for the early detection of cardiotoxicity in patients treated with chemotherapy.
This is a prospective, randomized (1:1) controlled trial that will be carried out on 50 patients who are candidate to evaluate the effect of montelukast on doxorubicin induced cardiotoxicity after 4 cycles of AC. Patients will be randomly allocated into two equal groups (25 patients each); group (A) for controlled (placebo), and group (B) for montelukast. Blood samples will be collected from the study subjects and analyzed for serum levels of the NF-KB and pro-BNP. Assessment of the biomarkers will be done at two time points: at baseline and after treatment with montelukast.
This clinical trial evaluates changes in cardiac (heart) function during stress echocardiography to screen for chemically induced cardiotoxicity in cancer patients at a high risk for developing heart failure. Some chemotherapeutic agents to treat certain types of cancers can induce cardiac dysfunction and heart failure. Currently there is no validated means of predicting which patients will go on to develop cardiac toxicity and heart failure following treatment with chemotherapeutic agents. Stress echocardiography is a test that uses ultrasound imaging to show how well the heart muscle is working to pump blood to the body during low intensity exercise. Stress echocardiography prior to and during cancer treatment may help doctors find cancer therapeutic related cardiac dysfunction sooner when it may be easier to treat.
Childhood cancer survivors are at an increased risk of cardiac toxicity due to prior anti-cancer therapy. However, adherence to cardiac screening in this population remains low. This study aims to assess the feasibility of an mHealth motivational interviewing platform called Computerized Authoring Intervention Software (CIAS) in childhood cancer survivors. Participants will be recruited from the Childhood Cancer Survivorship Study.
In Ireland, over 3,000 patients are diagnosed with breast cancer annually, and 1 in 9 Irish women will be diagnosed with breast cancer in their lifetime. There is evidence that female breast cancer survivors are more likely to die of cardiovascular disease than their age-matched counterparts. This research is focused on evaluating pathways for identifying, managing, and overcoming side effects of cancer therapies that can negatively impact quality-of-life and overall outcomes for women during and after cancer treatment. The Cardio-oncology research team at GUH plan to capitalize on their expertise in both cancer care and cardiology to develop a care pathway for cancer patients who are at increased risk of developing heart disease.
The investigators use the cancer registration system of National Cheng Kung University Hospital to timely screen and evaluate those patients having breast cancer or lymphoma to enroll patients to participate in this clinical trial. The investigators planned an earlier initiation of Sacubitril/Valsartan treatment on breast cancer and lymphoma patients before the chemotherapy, and starting therapeutic intervention by Sacubitril/Valsartan once the heart damage sign appeared via novel echocardiography. The investigators aim to assess the protective and therapeutic benefit of cardioprotective drugs on the cardiotoxicity of anti-cancer therapy.
Breast cancer is the most common cancer in the United Kingdom (UK), but improvements in treatment mean 3 in 4 people survive for more than 10 years. Many people receive treatments called human epidermal growth factor receptor 2 (HER2) targeted therapies for their breast cancer, however these can affect heart function. This 'cardiotoxicity' is generally temporary and mild, but patients receive drugs to help their heart recover. Currently it is not known how long patients should receive these treatments. Patients with other types of heart failure are treated lifelong, but this may not be necessary here as the damaging cancer drugs have stopped. Taking drugs for many years can have an impact on people's quality of life, particularly for young patients. It is therefore important to understand the best treatment length. The investigators will study people whose heart function has recovered after HER2 therapy heart problems and are not at high risk for heart disease. The investigators will carefully stop their heart drugs whilst monitoring them closely with special heart scans and blood tests to detect problems early. The investigators will also study how patients are currently treated using national data. The results of this study will help doctors better guide breast cancer survivors about treatment of heart damage from HER2 cancer therapies.
Rationale: In addition to surgery, effective breast cancer (BC) treatment typically requires chemotherapy, radiotherapy, or both. However, it is still unclear whether patients with BC are at increased risk of long-term cardiac dysfunction due to the adverse effects of these therapies. In a cross-sectional study in primary care, a comparison on cardiac dysfunction between 350 BC survivors and 350 age- and general practitioner (GP)- matched controls without cancer was made. In that study, BC survivors were at increased risk of mild systolic cardiac dysfunction (left ventricle ejection fraction (LVEF)< 54%). By contrast, there was no significant difference in an LVEF < 50% or in diastolic dysfunction. To date it remains uncertain whether the mild or subclinical dysfunction we observed predicts further cardiac deterioration. Consequently, the translation of these results into guidelines for the daily practice of the GP is unclear. Objective: The aim of the here proposed study is to clarify whether cardiac function in survivors of BC should be monitored by GPs, by assessing whether an unselected population of long-term BC survivors is at increased risk of developing cardiac dysfunction, whether in this group at-risk subgroups exists, and what factors are associated with the highest risk. Study design: A new assessment of cardiac function among women included in the BLOC-I study. This produces a longitudinal matched cohort design consisting of two cohorts in primary care. Study population: Survivors of BC, diagnosed ≥11 years ago who received chemotherapy and/or radiotherapy, and a matched reference population with no history of cancer. All participants participated in the Breast cancer Long-term Outcome of Cardiac function (BLOC-I) study. Main study parameters/endpoints: Left ventricular systolic dysfunction. Systolic cardiac dysfunction is defined as a LVEF <54/50/45%.