View clinical trials related to Breast Neoplasms.
Filter by:The goal of this pilot study is to evaluate the feasibility and acceptability of collecting ecological momentary assessment data regarding feeling states during physical activity among a cohort of breast cancer survivors, using a novel smartwatch app created by the study team called "PHITbit."
I-SPY Phase I/Ib (I-SPY-P1) is an open-label, multisite platform study designed to evaluate single agents or combinations in a metastatic treatment setting that may be relevant for breast cancer patients with the overall goal of moving promising drug regimens into the I-SPY 2 SMART Design Trial (NCT01042379) and/or other oncology-based trials in a timely manner.
The goal of this randomized control trial is to determine if participating in an 8-week online cancer-related fatigue management intervention consisting of individualized exercise program, one-on-one goal setting and action plan development and interactive educational module will significantly reduce the perception of cancer-related fatigue, improve the quality of life, improve perceived cognition, and perceived function of breast cancer compared to a wait-list control group. The aim the project is to determine if an online cancerrelated fatigue management program is associated with 1. A decrease in cancer-related fatigue. 2. An improved perception of their ability and satisfaction in completing important activities 3. Greater quality of life. 4. Improved mobility 5. Improved perceived cognition
A psychoneurological symptom cluster is increasingly documented in oncology. It is composed of cancer-related fatigue, sleep difficulties, pain, emotional distress, and cognitive difficulties. These symptoms are linked by strong but complex relationships, and reinforce each other, negatively impacting patients' quality of life and survival. The configuration of this cluster (i.e., the relationships between the symptoms) seems different according to the cancer diagnosis or moment in the cancer journey. It has however been very little studied. Network analysis is an innovative method that allows a deeper understanding of the interactions between these symptoms. It also allows to compare patterns of clustering between distinct populations or measurement times. Finally, it allows to determine one core symptom in a cluster (i.e., the one with the strongest associations with the other symptoms), which could represent a target of choice for interventions aiming to improve the whole symptom cluster. This innovative project has then two main goals. First, the investigators will assess the evolution of the psychoneurological symptom cluster in two populations of patients with cancer: women with breast cancer, and patients with digestive cancer, over two years. Second, the investigators will test the feasibility and preliminary benefits of a new mind-body group intervention specifically designed to address the core symptom of the cluster, determined with network analysis in each population. As suggested by many authors, the proposed intervention will be based on the common-sense model of self-regulation developed by Leventhal and focus on cognitive-behavioral, self-care and mind-body (i.e., hypnosis) empowering strategies. The aim is to assess the satisfaction of the participants regarding the intervention, as well as its impact on the symptoms involved in the cluster.
To develop a novel, proactive cardiac rehabilitation program for breast cancer survivors at enhanced risk of cardiovascular disease. Considering this program is secondary to the Michigan Medicine Cardiac Rehabilitation program's goal to manage cardiac patients, the hybrid program has been designed that limits utilization of cardiac rehabilitation to 12 visits over the first eight weeks of the intervention compared to 32 visits for cardiovascular patients.
To de-escalate radiation therapy in women with breast cancer.
Datopotamab-deruxtecan in triple-negative breast cancer patients with newly diagnosed or progressing brain metastases.
The goal of this phase II clinical trial] is to analyze the efficacy of patritumab deruxtecan (HER3-DXd) in patients with metastatic breast cancer (MBC) or advanced non-small cell lung cancer (aNSCLC) with active brain metastases (BM) who have received at least one line of systemic therapy in the advanced setting, or patients with active leptomeningeal carcinomatosis/disease (LMD) after radiotherapy from an advanced solid tumor who do not need immediate local treatment, and have not received prior treatment with an anti-HER3 targeted drug]. The main questions it aims to answer are: - The intracranial objective response rate (ORR-IC) per local investigator as judged by best central nervous system (CNS) response according to Response Assessment in Neuro-Oncology Brain Metastases (RANO-BM) criteria of HER3-DXd in patients with active BM from MBC (Cohort 1) and aNSCLC (Cohort 2). - The overall survival (OS) rate at 3 months of HER3-DXd in patients with advanced solid tumors with untreated LMD (Cohort 3). Participants will receive HER3-DXd on day (D1) of each 21-day cycle until disease progression, unacceptable toxicity, death, or discontinuation from the study treatment for any other reason. Researchers will compare historical groups to see if HER3-DXd positively impacts patient outcomes.
To evaluate the efficacy and safety of trilaciclib combined with standard treatment project as a neoadjuvant treatment for triple negative breast cancer
This review will evaluate the efficacy, safety, and pharmacokinetics of SHR1210 (carrelizumab) compared with the antivascular drug famitinib in combination with anthracyclines/taxane-based adjuvant chemotherapy (carrelizumab + FAM + EC-P) compared with conventional chemotherapy regimens (dose-intensive epirubicin and cyclophosphamide, sequential paclitaxel, or EC-P) in patients with early-stage high-risk TNBC.