Right Ventricular Function Changes After CIED Implantation: The RIGHT-CIED Study

Overview

This study aims to understand how the right side of the heart changes in people who receive an implantable cardiac electronic device (CIED), such as a pacemaker, ICD, or CRT device. The right ventricle (RV) can sometimes be affected after these devices are placed, but the reasons and timing are not well understood. To investigate this, we will examine participants at two time-points: before their device is implanted and again six months later. At each visit, we will assess heart function using echocardiography, a non-contrast cardiac MRI scan, and an ultrasound score of venous congestion called the VEXUS score. We will also take a small blood sample to measure a biomarker called FGF-23, which may reflect changes in heart function. The study does not involve any experimental treatment, and all implanted devices are part of routine medical care. The imaging tests and blood samples are for research purposes only. By comparing the measurements before and after device implantation, we hope to better understand how CIEDs influence right-sided heart function and whether imaging findings are related to changes in blood biomarkers.

Right ventricular (RV) dysfunction and tricuspid valve changes are increasingly recognised in patients who receive implantable cardiac electronic devices (CIEDs). Potential mechanisms include lead-leaflet interaction, pacing-related alterations in RV mechanics and changes in venous haemodynamics. However, prospective data integrating advanced imaging, ultrasound-based congestion assessment and circulating biomarkers remain limited. This prospective observational cohort study will evaluate RV structure and function at two predefined time-points: immediately before CIED implantation and at six months after implantation. Assessments will include (1) transthoracic echocardiography with quantitative RV parameters, (2) a standardised VEXUS ultrasound score for systemic venous congestion, (3) non-contrast cardiac magnetic resonance (CMR) imaging for RV volumetry and tissue characterisation and (4) plasma measurement of FGF-23 as a biomarker potentially associated with RV remodelling. All implanted devices are clinically indicated and form part of routine care; no experimental device or therapeutic intervention is used. Imaging and blood sampling performed for the study are non-interventional and carry minimal risk. The purpose of the study is to quantify changes in RV size and function over six months and to explore whether alterations in imaging findings correspond to changes in venous congestion or biomarker levels. The results may help identify patients at risk of adverse RV remodelling following CIED implantation.