Your search keyword '"BOUSSOUSSOU, MELINDA"' showing total 2 results

1. Coronary Artery Calcium Score Predicts Major Adverse Cardiovascular Events in Stable Chest Pain

Author

Biavati, Federico, Saba, Luca, Boussoussou, Melinda, Kofoed, Klaus F., Benedek, Theodora, Donnelly, Patrick, Rodríguez-Palomares, José, Erglis, Andrejs, Štěchovský, Cyril, Šakalytė, Gintarė, Ađić, Nada Čemerlić, Gutberlet, Matthias, Dodd, Jonathan D., Diez, Ignacio, Davis, Gershan, Zimmermann, Elke, Kępka, Cezary, Vidakovic, Radosav, Francone, Marco, Ilnicka-Suckiel, Małgorzata, Plank, Fabian, Knuuti, Juhani, Faria, Rita, Schröder, Stephen, Berry, Colin, Ruzsics, Balazs, Rieckmann, Nina, Kubiak, Christine, Hansen, Kristian Schultz, Müller-Nordhorn, Jacqueline, Maurovich-Horvat, Pál, Sigvardsen, Per E., Benedek, Imre, Orr, Clare, Valente, Filipa Xavier, Zvaigzne, Ligita, Suchánek, Vojtěch, Jankauskas, Antanas, Ađić, Filip, Woinke, Michael, Cadogan, Diarmaid, Lecumberri, Iñigo, Thwaite, Erica, Kruk, Mariusz, Neskovic, Aleksandar N., Mancone, Massimo, Kuśmierz, Donata, Feuchtner, Gudrun, Pietilä, Mikko, Ribeiro, Vasco Gama, Drosch, Tanja, Delles, Christian, Cau, Riccardo, Fisher, Michael, Merkely, Bela, Kragelund, Charlotte, Aurelian, Rosca, Kelly, Stephanie, del Blanco, Bruno García, Rubio, Ainhoa, Szilveszter, Bálint, Hove, Jens D., Rodean, Ioana, Regan, Susan, Calabria, Hug Cuéllar, Édes, István Ferenc, Larsen, Linnea, Hodas, Roxana, Napp, Adriane E., Haase, Robert, Feger, Sarah, Mohamed, Mahmoud, Serna-Higuita, Lina M., Neumann, Konrad, Dreger, Henryk, Rief, Matthias, Wieske, Viktoria, Budoff, Matthew J., Estrella, Melanie, Martus, Peter, Bosserdt, Maria, Dewey, Marc, Biavati, Federico, Saba, Luca, Boussoussou, Melinda, Kofoed, Klaus F., Benedek, Theodora, Donnelly, Patrick, Rodríguez-Palomares, José, Erglis, Andrejs, Štěchovský, Cyril, Šakalytė, Gintarė, Ađić, Nada Čemerlić, Gutberlet, Matthias, Dodd, Jonathan D., Diez, Ignacio, Davis, Gershan, Zimmermann, Elke, Kępka, Cezary, Vidakovic, Radosav, Francone, Marco, Ilnicka-Suckiel, Małgorzata, Plank, Fabian, Knuuti, Juhani, Faria, Rita, Schröder, Stephen, Berry, Colin, Ruzsics, Balazs, Rieckmann, Nina, Kubiak, Christine, Hansen, Kristian Schultz, Müller-Nordhorn, Jacqueline, Maurovich-Horvat, Pál, Sigvardsen, Per E., Benedek, Imre, Orr, Clare, Valente, Filipa Xavier, Zvaigzne, Ligita, Suchánek, Vojtěch, Jankauskas, Antanas, Ađić, Filip, Woinke, Michael, Cadogan, Diarmaid, Lecumberri, Iñigo, Thwaite, Erica, Kruk, Mariusz, Neskovic, Aleksandar N., Mancone, Massimo, Kuśmierz, Donata, Feuchtner, Gudrun, Pietilä, Mikko, Ribeiro, Vasco Gama, Drosch, Tanja, Delles, Christian, Cau, Riccardo, Fisher, Michael, Merkely, Bela, Kragelund, Charlotte, Aurelian, Rosca, Kelly, Stephanie, del Blanco, Bruno García, Rubio, Ainhoa, Szilveszter, Bálint, Hove, Jens D., Rodean, Ioana, Regan, Susan, Calabria, Hug Cuéllar, Édes, István Ferenc, Larsen, Linnea, Hodas, Roxana, Napp, Adriane E., Haase, Robert, Feger, Sarah, Mohamed, Mahmoud, Serna-Higuita, Lina M., Neumann, Konrad, Dreger, Henryk, Rief, Matthias, Wieske, Viktoria, Budoff, Matthew J., Estrella, Melanie, Martus, Peter, Bosserdt, Maria, and Dewey, Marc

Abstract

Background Coronary artery calcium (CAC) has prognostic value for major adverse cardiovascular events (MACE) in asymptomatic individuals, whereas its role in symptomatic patients is less clear. Purpose To assess the prognostic value of CAC scoring for MACE in participants with stable chest pain initially referred for invasive coronary angiography (ICA). Materials and Methods This prespecified subgroup analysis from the Diagnostic Imaging Strategies for Patients With Stable Chest Pain and Intermediate Risk of Coronary Artery Disease (DISCHARGE) trial, conducted between October 2015 and April 2019 across 26 centers in 16 countries, focused on adult patients with stable chest pain referred for ICA. Participants were randomly assigned to undergo either ICA or coronary CT. CAC scores from noncontrast CT scans were categorized into low, intermediate, and high groups based on scores of 0, 1–399, and 400 or higher, respectively. The end point of the study was the occurrence of MACE (myocardial infarction, stroke, and cardiovascular death) over a median 3.5-year follow-up, analyzed using Cox proportional hazard regression tests. Results The study involved 1749 participants (mean age, 60 years ± 10 [SD]; 992 female). The prevalence of obstructive coronary artery disease (CAD) at CT angiography rose from 4.1% (95% CI: 2.8, 5.8) in the CAC score 0 group to 76.1% (95% CI: 70.3, 81.2) in the CAC score 400 or higher group. Revascularization rates increased from 1.7% to 46.2% across the same groups (P < .001). The CAC score 0 group had a lower MACE risk (0.5%; HR, 0.08 [95% CI: 0.02, 0.30]; P < .001), as did the 1–399 CAC score group (1.9%; HR, 0.27 [95% CI: 0.13, 0.59]; P = .001), compared with the 400 or higher CAC score group (6.8%). No significant difference in MACE between sexes was observed (P = .68). Conclusion In participants with stable chest pain initially referred for ICA, a CAC score of 0 showed very low risk, Background: Coronary artery calcium (CAC) has prognostic value for major adverse cardiovascular events (MACE) in asymptomatic individuals, whereas its role in symptomatic patients is less clear. Purpose: To assess the prognostic value of CAC scoring for MACE in participants with stable chest pain initially referred for invasive coronary angiography (ICA). Materials and Methods: This prespecified subgroup analysis from the Diagnostic Imaging Strategies for Patients With Stable Chest Pain and Intermediate Risk of Coronary Artery Disease (DISCHARGE) trial, conducted between October 2015 and April 2019 across 26 centers in 16 countries, focused on adult patients with stable chest pain referred for ICA. Participants were randomly assigned to undergo either ICA or coronary CT. CAC scores from noncontrast CT scans were categorized into low, intermediate, and high groups based on scores of 0, 1-399, and 400 or higher, respectively. The end point of the study was the occurrence of MACE (myocardial infarction, stroke, and cardiovascular death) over a median 3.5-year follow-up, analyzed using Cox proportional hazard regression tests. Results: The study involved 1749 participants (mean age, 60 years ± 10 [SD]; 992 female). The prevalence of obstructive coronary artery disease (CAD) at CT angiography rose from 4.1% (95% CI: 2.8, 5.8) in the CAC score 0 group to 76.1% (95% CI: 70.3, 81.2) in the CAC score 400 or higher group. Revascularization rates increased from 1.7% to 46.2% across the same groups (P < .001). The CAC score 0 group had a lower MACE risk (0.5%; HR, 0.08 [95% CI: 0.02, 0.30]; P < .001), as did the 1-399 CAC score group (1.9%; HR, 0.27 [95% CI: 0.13, 0.59]; P = .001), compared with the 400 or higher CAC score group (6.8%). No significant difference in MACE between sexes was observed (P = .68). Conclusion: In participants with stable chest pain initially referred for ICA, a CAC score of 0 showed very low risk of MACE, and higher CAC scores showed increasin

Published

2024

2. Computed Tomography Versus Invasive Coronary Angiography in Patients With Diabetes and Suspected Coronary Artery Disease

Author

Benedek, Theodora, Wieske, Viktoria, Szilveszter, Bálint, Kofoed, Klaus F., Donnelly, Patrick, Rodriguez-Palomares, José, Erglis, Andrejs, Veselka, Josef, Šakalytė, Gintarė, Ađić, Nada Čemerlić, Gutberlet, Matthias, Diez, Ignacio, Davis, Gershan, Zimmermann, Elke, Kępka, Cezary, Vidakovic, Radosav, Francone, Marco, Ilnicka-Suckiel, Małgorzata, Plank, Fabian, Knuuti, Juhani, Faria, Rita, Schröder, Stephen, Berry, Colin, Saba, Luca, Ruzsics, Balazs, Rieckmann, Nina, Kubiak, Christine, Schultz Hansen, Kristian, Müller-Nordhorn, Jacqueline, Merkely, Bela, Sigvardsen, Per E., Benedek, Imre, Orr, Clare, Valente, Filipa Xavier, Zvaigzne, Ligita, Horváth, Martin, Jankauskas, Antanas, Ađić, Filip, Woinke, Michael, Mulvihill, Niall, Lecumberri, Iñigo, Thwaite, Erica, Laule, Michael, Kruk, Mariusz, Stefanovic, Milica, Mancone, Massimo, Kuśmierz, Donata, Feuchtner, Gudrun, Pietilä, Mikko, Ribeiro, Vasco Gama, Drosch, Tanja, Delles, Christian, Melis, Marco, Fisher, Michael, Boussoussou, Melinda, Kragelund, Charlotte, Aurelian, Rosca, Kelly, Stephanie, Garcia Del Blanco, Bruno, Rubio, Ainhoa, Károlyi, Mihály, Hove, Jens D., Rodean, Ioana, Regan, Susan, Calabria, Hug Cuéllar, Gellér, László, Larsen, Linnea, Hodas, Roxana, Napp, Adriane E., Haase, Robert, Feger, Sarah, Mohamed, Mahmoud, Serna-Higuita, Lina M., Neumann, Konrad, Dreger, Henryk, Rief, Matthias, Danesh, John, Estrella, Melanie, Bosserdt, Maria, Martus, Peter, Dodd, Jonathan D., Dewey, Marc, Benedek, Theodora, Wieske, Viktoria, Szilveszter, Bálint, Kofoed, Klaus F., Donnelly, Patrick, Rodriguez-Palomares, José, Erglis, Andrejs, Veselka, Josef, Šakalytė, Gintarė, Ađić, Nada Čemerlić, Gutberlet, Matthias, Diez, Ignacio, Davis, Gershan, Zimmermann, Elke, Kępka, Cezary, Vidakovic, Radosav, Francone, Marco, Ilnicka-Suckiel, Małgorzata, Plank, Fabian, Knuuti, Juhani, Faria, Rita, Schröder, Stephen, Berry, Colin, Saba, Luca, Ruzsics, Balazs, Rieckmann, Nina, Kubiak, Christine, Schultz Hansen, Kristian, Müller-Nordhorn, Jacqueline, Merkely, Bela, Sigvardsen, Per E., Benedek, Imre, Orr, Clare, Valente, Filipa Xavier, Zvaigzne, Ligita, Horváth, Martin, Jankauskas, Antanas, Ađić, Filip, Woinke, Michael, Mulvihill, Niall, Lecumberri, Iñigo, Thwaite, Erica, Laule, Michael, Kruk, Mariusz, Stefanovic, Milica, Mancone, Massimo, Kuśmierz, Donata, Feuchtner, Gudrun, Pietilä, Mikko, Ribeiro, Vasco Gama, Drosch, Tanja, Delles, Christian, Melis, Marco, Fisher, Michael, Boussoussou, Melinda, Kragelund, Charlotte, Aurelian, Rosca, Kelly, Stephanie, Garcia Del Blanco, Bruno, Rubio, Ainhoa, Károlyi, Mihály, Hove, Jens D., Rodean, Ioana, Regan, Susan, Calabria, Hug Cuéllar, Gellér, László, Larsen, Linnea, Hodas, Roxana, Napp, Adriane E., Haase, Robert, Feger, Sarah, Mohamed, Mahmoud, Serna-Higuita, Lina M., Neumann, Konrad, Dreger, Henryk, Rief, Matthias, Danesh, John, Estrella, Melanie, Bosserdt, Maria, Martus, Peter, Dodd, Jonathan D., and Dewey, Marc

Abstract

OBJECTIVE To compare cardiac computed tomography (CT) with invasive coronary angiography (ICA) as the initial strategy in patients with diabetes and stable chest pain. RESEARCH DESIGN AND METHODS This prespecified analysis of the multicenter DISCHARGE trial in 16 European countries was performed in patients with stable chest pain and intermediate pretest probability of coronary artery disease. The primary end point was a major adverse cardiac event (MACE) (cardiovascular death, nonfatal myocardial infarction, or stroke), and the secondary end point was expanded MACE (including transient ischemic attacks and major procedure-related complications). RESULTS Follow-up at a median of 3.5 years was available in 3,541 patients of whom 557 (CT group n = 263 vs. ICA group n = 294) had diabetes and 2,984 (CT group n = 1,536 vs. ICA group n = 1,448) did not. No statistically significant diabetes interaction was found for MACE (P = 0.45), expanded MACE (P = 0.35), or major procedure-related complications (P = 0.49). In both patients with and without diabetes, the rate of MACE did not differ between CT and ICA groups. In patients with diabetes, the expanded MACE end point occurred less frequently in the CT group than in the ICA group (3.8% [10 of 263] vs. 8.2% [24 of 294], hazard ratio [HR] 0.45 [95% CI 0.22–0.95]), as did the major procedure-related complication rate (0.4% [1 of 263] vs. 2.7% [8 of 294], HR 0.30 [95% CI 0.13 – 0.63]). CONCLUSIONS In patients with diabetes referred for ICA for the investigation of stable chest pain, a CT-first strategy compared with an ICA-first strategy showed no difference in MACE and may potentially be associated with a lower rate of expanded MACE and major procedure-related complications., OBJECTIVE: To compare cardiac computed tomography (CT) with invasive coronary angiography (ICA) as the initial strategy in patients with diabetes and stable chest pain. RESEARCH DESIGN AND METHODS: This prespecified analysis of the multicenter DISCHARGE trial in 16 European countries was performed in patients with stable chest pain and intermediate pretest probability of coronary artery disease. The primary end point was a major adverse cardiac event (MACE) (cardiovascular death, nonfatal myocardial infarction, or stroke), and the secondary end point was expanded MACE (including transient ischemic attacks and major procedure-related complications). RESULTS: Follow-up at a median of 3.5 years was available in 3,541 patients of whom 557 (CT group n = 263 vs. ICA group n = 294) had diabetes and 2,984 (CT group n = 1,536 vs. ICA group n = 1,448) did not. No statistically significant diabetes interaction was found for MACE (P = 0.45), expanded MACE (P = 0.35), or major procedure-related complications (P = 0.49). In both patients with and without diabetes, the rate of MACE did not differ between CT and ICA groups. In patients with diabetes, the expanded MACE end point occurred less frequently in the CT group than in the ICA group (3.8% [10 of 263] vs. 8.2% [24 of 294], hazard ratio [HR] 0.45 [95% CI 0.22-0.95]), as did the major procedure-related complication rate (0.4% [1 of 263] vs. 2.7% [8 of 294], HR 0.30 [95% CI 0.13 - 0.63]). CONCLUSIONS: In patients with diabetes referred for ICA for the investigation of stable chest pain, a CT-first strategy compared with an ICA-first strategy showed no difference in MACE and may potentially be associated with a lower rate of expanded MACE and major procedure-related complications.

Published

2023