BACKGROUND: Delayed hyperenhancement (DHE) of the pericardium usually represents ongoing inflammation and may identify patients with constrictive pericarditis that will improve with anti-inflammatory therapy. However, a quantitative assessment of pericardial DHE has not been performed, and the hierarchical relationship among clinical factors, inflammatory markers, and pericardial DHE is unknown. METHODS AND RESULTS: We identified 41 consecutive patients with constrictive pericarditis who had a cardiovascular magnetic resonance study with DHE prior to the initiation of anti-inflammatory medications. Pericardial inflammation was quantified on short-axis DHE sequences by contouring the pericardium, selecting normal septal myocardium as a reference region, and then quantifying the pericardial signal that was >6 SD above the reference. Our primary outcome was clinical improvement with anti-inflammatory therapy. The mean age of our patients was 58 years, most patients were male (83%) with New York Heart Association Class II or III (59%) heart failure, and the median follow-up was 1 year. Chest pain, lower New York Heart Association class, higher Westergren sedimentation rates, and increased pericardial DHE were all significantly associated with clinical improvement (P<0.01 for all). When quantitative pericardial DHE was added to a model that included age, chest pain, New York Heart Association class, and Westergren sedimentation rates, the global χ(2) improved significantly (P=0.04 for DHE), and the area under the receiver operating characteristic curve was 0.96. CONCLUSIONS: In patients with constrictive pericarditis treated with anti-inflammatory therapy, a quantitative assessment of pericardial DHE can provide incremental information to predict clinical improvement when added to clinical factors and Westergren sedimentation rates.
BACKGROUND: Delayed hyperenhancement (DHE) of the pericardium usually represents ongoing inflammation and may identify patients with constrictive pericarditis that will improve with anti-inflammatory therapy. However, a quantitative assessment of pericardial DHE has not been performed, and the hierarchical relationship among clinical factors, inflammatory markers, and pericardial DHE is unknown. METHODS AND RESULTS: We identified 41 consecutive patients with constrictive pericarditis who had a cardiovascular magnetic resonance study with DHE prior to the initiation of anti-inflammatory medications. Pericardial inflammation was quantified on short-axis DHE sequences by contouring the pericardium, selecting normal septal myocardium as a reference region, and then quantifying the pericardial signal that was >6 SD above the reference. Our primary outcome was clinical improvement with anti-inflammatory therapy. The mean age of our patients was 58 years, most patients were male (83%) with New York Heart Association Class II or III (59%) heart failure, and the median follow-up was 1 year. Chest pain, lower New York Heart Association class, higher Westergren sedimentation rates, and increased pericardial DHE were all significantly associated with clinical improvement (P<0.01 for all). When quantitative pericardial DHE was added to a model that included age, chest pain, New York Heart Association class, and Westergren sedimentation rates, the global χ(2) improved significantly (P=0.04 for DHE), and the area under the receiver operating characteristic curve was 0.96. CONCLUSIONS: In patients with constrictive pericarditis treated with anti-inflammatory therapy, a quantitative assessment of pericardial DHE can provide incremental information to predict clinical improvement when added to clinical factors and Westergren sedimentation rates.
Authors: Eias Massalha; Yafim Brodov; Daniel Oren; Alex Fardman; Sharon Shalom Natanzon; Israel Mazin; Roy Beinart; Ronen Goldkorn; Eli Konen; Elio Di Segni; Amit Segev; Roy Beigel; Shlomi Matetzky; Orly Goitein Journal: Front Cardiovasc Med Date: 2022-02-24