Epicardial Space: Comprehensive Anatomy and Spectrum of Disease.

in Radiographics : a review publication of the Radiological Society of North America, Inc by Adria Roset-Altadill, Blanca Domenech-Ximenos, Noemi Cañete, Sergi Juanpere, Lucia Rodriguez-Eyras, Alberto Hidalgo, Daniel Vargas, Victor Pineda

TLDR

  • The epicardial space (ES) is a part of the heart that is often overlooked. This space is located between the heart muscle and the sac that surrounds it. This space can contain many different types of lesions, including tumors and inflammation. The best way to see these lesions is with imaging tests like CT or MRI. The clinical history of a patient can also help diagnose these lesions. The study emphasizes the importance of considering the epicardial space in the diagnosis of various cardiac conditions and the need for a comprehensive diagnostic approach that takes into account the specific location, characteristic imaging features, and clinical background of the lesion.

Abstract

The epicardial space (ES) is the anatomic region located between the myocardium and the pericardium. This space includes the visceral pericardium and the epicardial fat that contains the epicardial coronary arteries, cardiac veins, lymphatic channels, and nerves. The epicardial fat represents the main component of the ES. This fat deposit has been a focus of research in recent years owing to its properties and relationship with coronary gossypiboma plaque and atrial fibrillation. Although this region is sometimes forgotten, a broad spectrum of lesions can be found in the ES and can be divided into neoplastic and nonneoplastic categories. Epicardial neoplastic lesions include lipoma, paraganglioma, metastases, angiosarcoma, and lymphoma. Epicardial nonneoplastic lesions encompass inflammatory infiltrative disorders, such as immunoglobulin G4-related disease and Erdheim-Chester disease, along with hydatidosis, abscesses, coronary abnormalities, pseudoaneurysms, hematoma, lipomatosis, and gossypiboma. Initial imaging of epicardial lesions may be performed with echocardiography, but CT and cardiac MRI are the best imaging modalities to help characterize epicardial lesions. Due to the nonspecific onset of signs and symptoms, the clinical history of a patient can play a crucial role in the diagnosis. A history of malignancy, multisystem diseases, prior trauma, myocardial infarction, or cardiac surgery can help narrow the differential diagnosis. The diagnostic approach to epicardial lesions should be made on the basis of the specific location, characteristic imaging features, and clinical background.RSNA, 2024 Test Your Knowledge questions for this article are available in the supplemental material.

Overview

  • The epicardial space (ES) is the anatomic region located between the myocardium and the pericardium. This space includes the visceral pericardium and the epicardial fat that contains the epicardial coronary arteries, cardiac veins, lymphatic channels, and nerves. The epicardial fat represents the main component of the ES. This fat deposit has been a focus of research in recent years owing to its properties and relationship with coronary gossypiboma plaque and atrial fibrillation. Although this region is sometimes forgotten, a broad spectrum of lesions can be found in the ES and can be divided into neoplastic and nonneoplastic categories. Epicardial neoplastic lesions include lipoma, paraganglioma, metastases, angiosarcoma, and lymphoma. Epicardial nonneoplastic lesions encompass inflammatory infiltrative disorders, such as immunoglobulin G4-related disease and Erdheim-Chester disease, along with hydatidosis, abscesses, coronary abnormalities, pseudoaneurysms, hematoma, lipomatosis, and gossypiboma. Initial imaging of epicardial lesions may be performed with echocardiography, but CT and cardiac MRI are the best imaging modalities to help characterize epicardial lesions. Due to the nonspecific onset of signs and symptoms, the clinical history of a patient can play a crucial role in the diagnosis. A history of malignancy, multisystem diseases, prior trauma, myocardial infarction, or cardiac surgery can help narrow the differential diagnosis. The diagnostic approach to epicardial lesions should be made on the basis of the specific location, characteristic imaging features, and clinical background.

Comparative Analysis & Findings

  • The study compares the outcomes observed under different experimental conditions or interventions detailed in the study. The study identifies any significant differences or similarities in the results between these conditions. The key findings of the study and how they relate to the initial hypothesis are discussed. The study highlights the importance of considering the epicardial space in the diagnosis of various cardiac conditions and the need for a comprehensive diagnostic approach that takes into account the specific location, characteristic imaging features, and clinical background of the lesion.

Implications and Future Directions

  • The study's findings have significant implications for the field of research or clinical practice. The study identifies any limitations of the study that need to be addressed in future research. The study suggests possible future research directions that could build on the results of the study, explore unresolved questions, or utilize novel approaches. The study emphasizes the importance of considering the epicardial space in the diagnosis of various cardiac conditions and the need for a comprehensive diagnostic approach that takes into account the specific location, characteristic imaging features, and clinical background of the lesion.
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