View clinical trials related to ER+ Breast Cancer.
Filter by:This is a two-part, open-label, multicenter, dose escalation and dose expansion study designed to evaluate the safety, tolerability, pharmacokinetics (PK), pharmacodynamics (PDx), and anti- tumor activity of ETX-19477, a novel reversible small molecule inhibitor of PARG.
This is a phase I open-label dose escalation trial of FWD1802 as monotherapy and in combination with palbociclib in patients with ER+/HER2- unresectable locally advanced or metastatic breast cancer The goal of this clinical trial] is to learn about in ER+/HER2- BC participant population. The main questions it aims to answer are: - Establish the recommended phase II dose (RP2D) and/or the maximum tolerated dose (MTD) of FWD1802 as monotherapy and in combination with palbociclib in patients with ER+/HER2- unresectable locally advanced or metastatic breast cancer. - Explore the safety and tolerability of FWD1802 as monotherapy and in combination with Palbociclib. - Characterise Pharmacokinetics of FWD1802 as monotherapy and in combination with palbociclib. - Explore preliminary efficacy signals.
The purpose of this study is to see if using Stereotactic Body Radiation Therapy/SBRT to treat a single metastatic site where cancer has worsened may be an effective treatment for people with oligometastatic breast cancer. Participants will stay on their usual drug therapy while they receive SBRT. This combination of SBRT to a single metastatic site and usual drug therapy may prevent participants' cancer from worsening in other metastatic sites or spreading.
Adjuvant treatment with tamoxifen is the standard of care for women with estrogen receptor positive (ER+) breast cancer. Tamoxifen is converted to endoxifen, its active metabolite, via CYP2D6 enzymes. The literature states that an endoxifen concentration of at least 16 nmol/L is needed to produce a therapeutic effect (4). Therapeutic Drug Monitoring (TDM) has been proven to be a successful technique to reach the 16 nmol/L endoxifen threshold after 6 months. However, in general TDM can only be used when a drug is in steady-state, which for endoxifen is reached after 3 months for normal metabolizers. For poor- and intermediate metabolizers, the time until steady-state is presumably even longer. This could possibly result in undertreatment within the first 3 to 6 months of tamoxifen treatment. In this study, model-informed precision dosing (MIPD) will be used to counter this problem. The Pharmacokinetic-model, which is used for MIPD, includes CYP2D6 genotype, co-medication, age, body height, BMI and CYP2D6/CYP3A inhibitor use to predict a patient tailored dose. Using MIPD, our aim is to decrease the proportion of patients that are undertreated within the first three months of tamoxifen treatment.
This study is to evaluate the safety and tolerability of JAB-2485 monotherapy in adult participants with advanced solid tumors.
Detection of molecular relapse with circulating tumour DNA analysis can identify which patients with ER positive breast cancer are relapsing on adjuvant endocrine therapy. This trial will aim to demonstrate that palbociclib and fulvestrant, can defer or prevent relapse in patients with ctDNA detected molecular relapse. The TRAK-ER trial will have two phases, a ctDNA surveillance phase and a randomised therapy trial in patients with positive ctDNA. The TRAK-ER trial will establish a ctDNA screening programme for patients with ER positive breast cancer receiving adjuvant endocrine therapy with at least a further three years of standard adjuvant endocrine therapy planned. Patients recruited into the TRAK-ER study will have high-risk clinical features to identify patients at higher risk of future relapse. ctDNA assays will be used to identify which people are at very high risk of relapse (i.e. those with a positive ctDNA result), and randomise this high risk population between standard endocrine therapy versus palbociclib plus fulvestrant for up to two years.
Analysis of circulating tumour DNA (ctDNA) found in a patient's peripheral blood can identify cancer progression and predict a patient's response to therapy. By using ctDNA analysis and imaging techniques, the FAIM trial aims to determine whether the addition of the experimental drug ipatasertib to a standard combination of the hormone treatment fulvestrant and the targeted agent palbociclib increases progression free survival (PFS) for patients with hormone-receptor positive and human epidermal growth factor receptor 2 negative (HR+/HER2-) breast cancer.
Estrogen Receptor (ER) is a crucial prognostic factor and treatment target in breast cancer patients. Knowledge of its status greatly influences the choice of the optimal course of treatment. Pathological evaluations of primary tumor, axillary nodes, and metastases are the only confirmatory approach to ER status determination and are limited to known and accessible sites. However, it is known that many advanced breast cancer patients harbor diseases presenting inter-tumor or temporal ER heterogeneity, as ER expression can vary between tumor foci and can evolve during treatment and at time of recurrence, hence the need for whole-body, non-invasive assessment of ER status. In the last decades, 16α-[18F]fluoroestradiol (FES) was developed and evaluated as an ER-targeting positron emission tomography (PET) tracer. FES correlated with ER expression, and recently was shown to be able to predict hormone therapy response. Our Center designed and evaluated 4-fluoro-11β-methoxy-16α-[18F]fluoroestradiol (4FMFES), a successor PET tracer for ER imaging. Paired comparison during a phase II clinical trial showed that 4FMFES produced images of better quality, with less overall non-specific signal than FES. It resulted in a significantly improved tumor contrast and tumor detectability using 4FMFES-PET leading to increased diagnosis confidence in early-stage breast cancer compared to FES-PET. Those results demonstrated that, as of now, 4FMFES-PET is the best imaging modality worldwide for whole-body ER status determination, but further validations are necessary to position this method as a standard and essential tool for breast cancer management. Like what was observed for FES-PET, preliminary data suggest that 4FMFES-PET combined with FDG-PET will yield very high sensibility for breast tumor detection, each method being complementary. In continuity with previous work, we seek to expand our clinical knowledge of this high-potential diagnostic imaging through the following main objective: Launch a phase II clinical trial to explore the full potential and benefit of 4FMFES-PET in combination with FDG-PET for advanced ER+ breast cancer patients to demonstrate it is an essential tool for cancer management. This proposed project will focus on 3 specific aims: 1. Compare and complement 4FMFES-PET with FDG-PET and conventional imaging modalities, and evaluate how they improved prognosis and staging of ER+ advanced breast cancer patients; 2. Correlate 4FMFES/FDG uptake and staging with pathological data (histology, receptor status, grade), including distal biopsy metastases sampling; 3. Correlate 4FMFES/FDG uptake and staging with longitudinal outcomes (treatment response, progression-free survival, time-to-relapse) to determine which cohort of patient benefit most from 4FMFES.
This clinical study is aiming to determine the safest doses and schedule for the combination of two drugs named palbociclib and avelumab. The study will also be investigating how effective the combination is for a subgroup of breast cancer patients whose cancer expresses the androgen receptor (AR) but not the oestrogen (hormone) or HER2 receptors. Palbociclib is a drug used in routine care for hormone-receptor (HR) positive and HER2 negative advanced breast cancer, the most common subtype of breast cancer. It is possible that the combination of palbociclib and avelumab will be a more effective cancer treatment than each drug separately, but this is unknown and this study is needed to establish the best dosage and schedule of each drug as well as how effective the combination is.