Atrial Fibrillation Risk After Miniinvasive Mitral Valve Repair

Overview

This retrospective cohort study investigates how CT-derived tissue quality parameters, serving as markers of metabolic status, predict post-operative atrial fibrillation risk in patients undergoing minimally invasive mitral valve surgery. The study leverages established associations between adipose tissue characteristics and metabolic dysfunction to explore their potential role in post-surgical arrhythmogenesis.

Scientific Background and Rationale Post-operative atrial fibrillation (POAF) affects up to 30% of patients following cardiac surgery and significantly impacts outcomes. While traditional risk factors are well-documented, the role of underlying metabolic dysfunction in arrhythmogenesis remains poorly understood. Recent evidence suggests that tissue-specific metabolic alterations, particularly in adipose tissue distribution and quality, may provide crucial insights into arrhythmic risk. CT-derived tissue quality parameters (measured in Hounsfield Units) have been validated as markers of metabolic status, with studies demonstrating associations between adipose tissue density and inflammatory states. This study aims to investigate whether these metabolic markers can predict POAF risk in the specific context of mitral valve surgery, potentially informing risk stratification and preventive strategies. Primary Objective To determine whether CT-derived tissue quality parameters (adipose tissue density, muscle density) independently predict post-operative atrial fibrillation risk following minimally invasive mitral valve surgery. Study Design Observational Model: Retrospective Cohort Setting: Single-center study at Complex Cardiovascular Center, Hospital AGEL Trinec-Podlesi Time Frame: January 2014 - November 2023 Follow-up: Through August 1, 2024 Primary Outcome Measure Post-operative Atrial Fibrillation \[Time Frame: Up to 30 days post-surgery\] Defined as new-onset AF lasting more than 48 hours or requiring intervention Measured through continuous cardiac monitoring Analyzed separately for patients with and without preoperative AF history Secondary Outcome Measures Overall Survival \[Through August 1, 2024\] Perioperative Complications: Blood product utilization Duration of mechanical ventilation ICU length of stay Total hospital length of stay Key Study Groups AF-Naïve Group (n=56): No previous AF history Primary prevention cohort AF-History Group (n=48): Preexisting AF with concurrent Maze procedure Secondary prevention cohort CT Analysis Methods Automated segmentation at L3 vertebral level Parameters measured: Muscle density (HU) Intramuscular adipose tissue density (IMAT HU) Visceral adipose tissue density (VAT HU) Subcutaneous adipose tissue density (SAT HU) Skeletal muscle index (SMI) Statistical Analysis Plan Primary analysis: Logistic regression for POAF prediction Interaction analysis between tissue parameters and AF history Adjustment for age, gender, and traditional risk factors Separate models for AF-naïve and AF-history groups Eligibility Criteria Inclusion Criteria: Age ≥ 18 years Undergoing minimally invasive mitral valve surgery Preoperative CT scan available Surgery between January 2014 and November 2023 Exclusion Criteria: Incomplete clinical data Poor quality CT images Previous cardiac surgery Sample Size 114 total participants (104 included in primary analysis) Study Status Completed enrollment Final follow-up: August 1, 2024 Ethics Committee Approval: EK 65/24 Principal Investigators Matej Pekar, MD David Vician, MD Complex Cardiovascular Center, Hospital AGEL Trinec-Podlesi Funding Sources MUNI/A/1547/2023 MUNI/A/1555/2023 Ministry of Education, Youth, and Sports of the Czech Republic

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