Description

Anthracycline-based chemotherapy remains a cornerstone of (neo)adjuvant treatment for breast cancer but is limited by a well-recognized risk of cardiotoxicity. This injury may manifest as left ventricular systolic dysfunction, abnormalities in myocardial deformation, impaired myocardial work efficiency, endothelial dysfunction, or increased arterial stiffness. Changes often occur early during treatment and may progress to clinically significant heart failure months or years after completion of chemotherapy. Current preventive strategies focus primarily on strict control of cardiovascular risk factors, as no pharmacologic intervention has consistently demonstrated efficacy in preventing anthracycline-induced cardiotoxicity.

SGLT-2 inhibitors, including dapagliflozin, have demonstrated robust cardiovascular benefits across diverse populations, independent of diabetes status. Clinical trials in heart failure and mechanistic studies indicate that SGLT-2 inhibition favorably affects myocardial energetics, reduces oxidative stress and inflammation, improves endothelial function, and modulates myocardial remodeling. Retrospective observational data in patients exposed to anthracyclines suggest fewer cardiac events among individuals using SGLT-2 inhibitors, but no prospective randomized trial has evaluated this potential cardioprotective effect.

This randomized, double-blind, placebo-controlled clinical trial is designed to determine whether dapagliflozin can attenuate cardiac and vascular deterioration associated with anthracycline chemotherapy in adults with breast cancer. Approximately 100 participants scheduled to receive four cycles of anthracycline-based (neo)adjuvant chemotherapy will be randomized (1:1) to receive dapagliflozin 10 mg once daily or matching placebo. Treatment will begin prior to or at the initiation of chemotherapy and continue according to protocol-defined duration.

Baseline evaluation includes transthoracic echocardiography with quantification of left ventricular ejection fraction (LVEF, using the modified biplane Simpson method), global longitudinal strain (GLS, via speckle-tracking in three apical views), and myocardial work indices derived from noninvasive blood pressure and strain analysis. Vascular ultrasonography will assess endothelial function through brachial artery flow-mediated dilation (FMD) and arterial stiffness via carotid pulse wave velocity (PWV) and stiffness index β. Functional capacity will be measured using the 6-minute walk test. Participants will also provide blood samples for a comprehensive biomarker panel including markers of myocardial injury (high-sensitivity troponin), hemodynamic stress (NT-proBNP), myocardial remodeling (ST-2, GDF-15, galectin-3), and inflammation (IL-6, myeloperoxidase). Quality of life will be assessed using EQ-5D, KCCQ, and SF-36 questionnaires.

All assessments (cardiac imaging, vascular studies, functional testing, and biomarker sampling) will be repeated at 24 and 52 weeks following initiation of chemotherapy, with an additional biomarker time point after two chemotherapy cycles and at the end of anthracycline treatment. This protocol enables characterization of both acute and subacute trajectories of myocardial and vascular injury.

The primary objective is to determine whether dapagliflozin reduces the degree of anthracycline-related left ventricular dysfunction, particularly reflected in GLS and myocardial work indices. Secondary objectives include evaluating effects on LVEF, endothelial function (FMD), arterial stiffness (PWV, stiffness β), biomarker profiles, functional capacity, and patient-reported outcomes. Safety monitoring will include systematic assessment of adverse events related to dapagliflozin, such as genitourinary infections, volume depletion, hypotension, and rare ketoacidosis. All participants will be monitored according to predefined stopping criteria and standard clinical safety procedures.

By integrating advanced cardiac and vascular phenotyping with serial biomarker profiling, this study aims to generate high-quality evidence on whether dapagliflozin provides meaningful primary prevention of anthracycline-induced cardiotoxicity. If beneficial, this approach could inform future cardio-oncology guidelines and improve cardiovascular safety for patients undergoing anthracycline chemotherapy.