Cardiac Masses and Pseudomasses: An Overview about Diagnostic Imaging and Clinical Background

A cardiac lesion detected at ultrasonography might turn out to be a normal structure, a benign tumor or rarely a malignancy, and lesion characterization is very important to appropriately manage the lesion itself. The exact relationship of the mass with coronary arteries and the knowledge of possible concomitant coronary artery disease are necessary preoperative information. Moreover, the increasingly performed coronary CT angiography to evaluate non-invasively coronary artery disease leads to a rising number of incidental findings. Therefore, CT and MRI are frequently performed imaging modalities when echocardiography is deemed insufficient to evaluate a lesion. A brief comprehensive overview about diagnostic radiological imaging and the clinical background of cardiac masses and pseudomasses is reported.


Introduction
Cardiac lesions can be subdivided into pseudomasses and true masses.The latter can be categorized into non-neoplastic masses and neoplastic ones, which can be classified into benign and malignant, as reported in the 2021 WHO classification [1].These lesions can be recognized as intracavitary, myocardial, valvular, pericardial lesions or as paracardiac masses involving atrioventricular groove or pericardiophrenic angles.
Cardiac ultrasonography is the first-line imaging modality, but when the nature of the lesion is not clearly understood or the precise localization and the relationship with surrounding tissues and coronary arteries need to be evaluated, computed tomography (CT) and magnetic resonance (MR) imaging are performed [2].Moreover, the increasing use of coronary CT angiography to evaluate coronary artery disease results in more frequent observation of incidental findings [3].PET/CT could be useful when a lymphoma or a malignant lesion is suspected, and sometimes it could determine false positive findings as it is the case of lipomatous hypertrophy of the inter-atrial septum in which there is metabolically active brown adipose tissue [4].
Many cardiac masses consist of pseudomasses, non-neoplastic lesions and benign tumors, and lesion characterization is very important to manage the patients appropriately.Large lesions with ill-defined borders, tissue heterogeneity, nodular pericardial involvement and multiplicity are suspicious findings for malignancy.

Pseudomasses 2.1. Normal Intracardiac Structures
Normal cardiac structures or embryologic remnants can sometimes raise suspicion of tumor or thrombus with echocardiography, especially if prominent, but are generally easily characterized with MR imaging or CT given the large field of view and high spatial resolution (Table 1).
Coumadin ridge or warfarin ridge or left atrial ridge is a normal elongated structure with a bulbous tip in the left atrium that lies between the left atrial appendage and left upper pulmonary vein (Figure 1).A prominent ridge can be mistaken for a thrombus or tumor, but it usually has an echogenicity that is similar to surrounding cardiac structures and shows mobility with underlying tissue.CT attenuation, MR signal intensity and contrast enhancement are like those of the normal surrounding atrial wall.Sometimes the coumadin ridge may be a substrate for paroxysmal atrial fibrillation.Rarely, tumors such as fibroelastoma and myxoma may originate from this ridge [5][6][7].
Crista terminalis or terminal crest is a smooth and well-defined structure in the posterolateral right atrial wall near the superior vena cava and it can measure about 3 to 6 mm.It is present in every heart, and it is frequently not visualized during echocardiography.However, a prominent crista terminalis may be misinterpreted as a cardiac mass or pseudomass.It is represented by a linear echogenic ridge on echocardiograms, and at CT and MR it shows the same attenuation or signal intensity and contrast enhancement of the surrounding atrial wall (Figure 2).It is sometimes associated with right atrial tachyarrhythmias (cristal tachycardias) [8].Crista terminalis or terminal crest is a smooth and well-defined structure in the posterolateral right atrial wall near the superior vena cava and it can measure about 3 to 6 mm.It is present in every heart, and it is frequently not visualized during echocardiography.However, a prominent crista terminalis may be misinterpreted as a cardiac mass or pseudomass.It is represented by a linear echogenic ridge on echocardiograms, and at CT and MR it shows the same attenuation or signal intensity and contrast enhancement of the surrounding atrial wall (Figure 2).It is sometimes associated with right atrial tachyarrhythmias (cristal tachycardias) [8].The taenia sagittalis or sagittal bundle is the most prominent pectinate muscle in the right atrium (RA).It shows a single trunk in about 60% of the population, multiple trunks in about 20%, and it is absent in about 20% of cases.The taenia sagittalis is usually not visible during cardiac ultrasonography.During CT and MR the taenia sagittalis is visualized as a linear ridge that goes from the crista terminalis to the right atrial appendage (RAA).During CT and MR, it shows similar attenuation or signal intensity and enhancement to those of the surrounding right atrial wall.It may be a substrate for atrial flutter or fibrillation [9].mm.It is present in every heart, and it is frequently not visualized during echocardiography.However, a prominent crista terminalis may be misinterpreted as a cardiac mass or pseudomass.It is represented by a linear echogenic ridge on echocardiograms, and at CT and MR it shows the same attenuation or signal intensity and contrast enhancement of the surrounding atrial wall (Figure 2).It is sometimes associated with right atrial tachyarrhythmias (cristal tachycardias) [8].The taenia sagittalis or sagittal bundle is the most prominent pectinate muscle in the right atrium (RA).It shows a single trunk in about 60% of the population, multiple trunks in about 20%, and it is absent in about 20% of cases.The taenia sagittalis is usually not visible during cardiac ultrasonography.During CT and MR the taenia sagittalis is visualized as a linear ridge that goes from the crista terminalis to the right atrial appendage (RAA).During CT and MR, it shows similar attenuation or signal intensity and enhancement to those of the surrounding right atrial wall.It may be a substrate for atrial flutter or fibrillation [9].The Chiari network, Chiari remnant or right atrial net is a net-like structure in the RA over the IVC ostium but can also be represented by a linear band between the eustachian and/or thebesian valves and the crista terminalis, or a prominent eustachian valve (Figure 3).The Chiari network can be seen in about 10% of the population.When visualized during echocardiography, it is highly mobile and echogenic.It can favor supraventricular arrhythmia and it is associated with patent foramen ovale and paradoxical embolism.However, the Chiari network could reduce the risk of embolization from deep leg vein thrombosis [10].
Medicina 2024, 60, x FOR PEER REVIEW 5 of 37 The Chiari network, Chiari remnant or right atrial net is a net-like structure in the RA over the IVC ostium but can also be represented by a linear band between the eustachian and/or thebesian valves and the crista terminalis, or a prominent eustachian valve (Figure 3).The Chiari network can be seen in about 10% of the population.When visualized during echocardiography, it is highly mobile and echogenic.It can favor supraventricular arrhythmia and it is associated with patent foramen ovale and paradoxical embolism.However, the Chiari network could reduce the risk of embolization from deep leg vein thrombosis [10].The moderator band is the most pronounced muscular ridge in the RV, and it extends from the ventricular septum to the free wall at the base of the anterior papillary muscle.It carries the right bundle branch of the AV bundle, and when conspicuous it can be mistaken for a thrombus at echocardiography.However, during CT and MR the moderator band shows attenuation, signal intensity, and contrast enhancement similar to those of the RV (Figure 4).Infrequently a hypertrophied or atypically located papillary muscle can be confused with a mass during echocardiography.However, during MR or CT the entire course and attachment of the muscle can be simply evaluated, therefore allowing for the correct diagnosis [11,12].The moderator band is the most pronounced muscular ridge in the RV, and it extends from the ventricular septum to the free wall at the base of the anterior papillary muscle.It carries the right bundle branch of the AV bundle, and when conspicuous it can be mistaken for a thrombus at echocardiography.However, during CT and MR the moderator band shows attenuation, signal intensity, and contrast enhancement similar to those of the RV (Figure 4).Infrequently a hypertrophied or atypically located papillary muscle can be confused with a mass during echocardiography.However, during MR or CT the entire course and attachment of the muscle can be simply evaluated, therefore allowing for the correct diagnosis [11,12].
taken for a thrombus at echocardiography.However, during CT and MR the moderator band shows attenuation, signal intensity, and contrast enhancement similar to those of the RV (Figure 4).Infrequently a hypertrophied or atypically located papillary muscle can be confused with a mass during echocardiography.However, during MR or CT the entire course and attachment of the muscle can be simply evaluated, therefore allowing for the correct diagnosis [11,12].

Lipomatous Hypertrophy of the Inter-Atrial Septum (LHIS or LHAS)
LHIS is a benign unencapsulated hyperplasia of lipocytes resembling brown fat in the fold of the septum secundum, sparing the fossa ovalis which forms part of the septum primum, producing the typical barbell or dumbbell appearance (Figure 5).Interatrial Septum (IS) thickness > 2 cm suggests the diagnosis of LHIS.Extensive LHIS can also involve the posterior wall of the right atrium and crista terminalis.Cardiac lipoma is encapsulated, affects the fossa ovalis and represents the main differential diagnosis.LHIS metabolically active brown adipose tissue can show 18F-FDG uptake during Positron Emission Tomography (Figure 6).LHIS is usually asymptomatic.However, sometimes it can cause atrial arrhythmias or, rarely, superior vena cava compression.Surgery is indicated if there are signs of superior vena cava syndrome, or if there are severe intractable arrhythmias [13][14][15].

Lipomatous Hypertrophy of the Inter-Atrial Septum (LHIS or LHAS)
LHIS is a benign unencapsulated hyperplasia of lipocytes resembling the fold of the septum secundum, sparing the fossa ovalis which forms part primum, producing the typical barbell or dumbbell appearance (Figure 5).I tum (IS) thickness > 2 cm suggests the diagnosis of LHIS.Extensive LHIS ca the posterior wall of the right atrium and crista terminalis.Cardiac lipoma is affects the fossa ovalis and represents the main differential diagnosis.LHIS active brown adipose tissue can show 18F-FDG uptake during Positron Em raphy (Figure 6).LHIS is usually asymptomatic.However, sometimes it c arrhythmias or, rarely, superior vena cava compression.Surgery is indicat signs of superior vena cava syndrome, or if there are severe intractable arr 15].

Thrombus
Thrombus is the most common cardiac mass.It is usually identified in the left atrium in patients with atrial fibrillation, atrial dilatation, mitral stenosis or previous mitral valve surgery (Table 2) (Figure 7).After myocardial infarction thrombus can be found adjacent to a left ventricle hypokinetic region (Figure 8).Occasionally, thrombi can be located in the RA or in vena cava, especially in patients with enlarged right chambers and with central venous lines.They are usually broad-based and move synchronously with the adjacent wall during the cardiac cycle.During CT a thrombus shows low attenuation on delayed phase acquisition, and it shows absence of iodine uptake on dual-energy CT iodine map.Cardiac MR is the most accurate imaging method in differentiating cardiac thrombi and tumors.T1-and T2-weighted signal characteristics vary depending on the age of a thrombus.Usually, thrombus does not show contrast enhancement.Late gadolinium enhancement (LGE) imaging can sometimes show a hypointense border and a brighter central zone.However, organized chronic thrombus may rarely enhance peripherally due to its fibrous content.Frequently patients are asymptomatic, and thrombus identification is necessary in order to start anticoagulation treatment and prevent possible embolic events [16][17][18].

Thrombus
Thrombus is the most common cardiac mass.It is usually identified in the left atrium in patients with atrial fibrillation, atrial dilatation, mitral stenosis or previous mitral valve surgery (Table 2) (Figure 7).After myocardial infarction thrombus can be found adjacent to a left ventricle hypokinetic region (Figure 8).Occasionally, thrombi can be located in the RA or in vena cava, especially in patients with enlarged right chambers and with central venous lines.They are usually broad-based and move synchronously with the adjacent wall during the cardiac cycle.During CT a thrombus shows low attenuation on delayed phase acquisition, and it shows absence of iodine uptake on dual-energy CT iodine map.Cardiac MR is the most accurate imaging method in differentiating cardiac thrombi and tumors.T1and T2-weighted signal characteristics vary depending on the age of a thrombus.Usually, thrombus does not show contrast enhancement.Late gadolinium enhancement (LGE) imaging can sometimes show a hypointense border and a brighter central zone.However, organized chronic thrombus may rarely enhance peripherally due to its fibrous content.Frequently patients are asymptomatic, and thrombus identification is necessary in order to start anticoagulation treatment and prevent possible embolic events [16][17][18].

Vegetations
Endocarditis is usually due to an infectious etiology and is characterized by leaflet destruction and often valvular incompetence (Figure 9).Either a native or prosthetic cardiac valve may be affected (Figure 10).Moreover, electrocatheters can be involved (Figure 11).The modified Duke criteria are used for diagnosis.Echocardiography is the first-line imaging modality for patients with suspected vegetations.Vegetations are highly mobile lesions, and usually do not enhance.However, peripheral rim enhancement on LGE imaging rarely can be observed.Moreover, adjacent myocardial enhancement could denote perivalvular abscess, irreversible myocardial damage, or fibrosis.CT and MR are very

Vegetations
Endocarditis is usually due to an infectious etiology and is characterized by leaflet destruction and often valvular incompetence (Figure 9).Either a native or prosthetic cardiac valve may be affected (Figure 10).Moreover, electrocatheters can be involved (Figure 11).The modified Duke criteria are used for diagnosis.Echocardiography is the first-line imaging modality for patients with suspected vegetations.Vegetations are highly mobile lesions, and usually do not enhance.However, peripheral rim enhancement on LGE imaging rarely can be observed.Moreover, adjacent myocardial enhancement could denote perivalvular abscess, irreversible myocardial damage, or fibrosis.CT and MR are very

Vegetations
Endocarditis is usually due to an infectious etiology and is characterized by leaflet destruction and often valvular incompetence (Figure 9).Either a native or prosthetic cardiac valve may be affected (Figure 10).Moreover, electrocatheters can be involved (Figure 11).The modified Duke criteria are used for diagnosis.Echocardiography is the first-line imaging modality for patients with suspected vegetations.Vegetations are highly mobile lesions, and usually do not enhance.However, peripheral rim enhancement on LGE imaging rarely can be observed.Moreover, adjacent myocardial enhancement could denote perivalvular abscess, irreversible myocardial damage, or fibrosis.CT and MR are very useful to evaluate complications.In fact, severe cases may be characterized by perivalvular extension with paravalvular abscesses, mycotic pseudoaneurysm or fistula formation.Moreover, total-body CT should be performed to evaluate distant septic embolization.Proper diagnosis is vital because prompt management with antibiotic administration and surgery is crucial.Sometimes small verrucous vegetations can be found in sterile endocarditis secondary to inflammation (Libman-Sacks endocarditis), such as in patients with systemic lupus erythematosus [19].
lar extension with paravalvular abscesses, mycotic pseudoaneurysm or fistula formation.Moreover, total-body CT should be performed to evaluate distant septic embolization.Proper diagnosis is vital because prompt management with antibiotic administration and surgery is crucial.Sometimes small verrucous vegetations can be found in sterile endocarditis secondary to inflammation (Libman-Sacks endocarditis), such as in patients with systemic lupus erythematosus [19].useful to evaluate complications.In fact, severe cases may be characterized by perivalvular extension with paravalvular abscesses, mycotic pseudoaneurysm or fistula formation.Moreover, total-body CT should be performed to evaluate distant septic embolization.Proper diagnosis is vital because prompt management with antibiotic administration and surgery is crucial.Sometimes small verrucous vegetations can be found in sterile endocarditis secondary to inflammation (Libman-Sacks endocarditis), such as in patients with systemic lupus erythematosus [19].

Mitral Annular Calcification and Its Caseous Degeneration
Mitral annular calcification is an immobile mass, generally located in the inferolateral portion of the mitral anulus, caused by annular fibers calcium deposits, and rarely it can affect the whole annulus and press the myocardium (Figure 12).Imaging modalities show typical calcium deposition, and the fibrotic rim in which the calcified core is enclosed can show a peripheral LGE imaging hyperenhancement [20].Rarely, this lesion can evolve into caseous degeneration (or liquefaction necrosis), and in this case the lesion core contains a mixture of cholesterol, fatty acids, and amorphous eosinophilic infiltrate with a surrounding envelope that enfolds lymphocytes, macrophages, and multiple necrotic ar-

Mitral Annular Calcification and Its Caseous Degeneration
Mitral annular calcification is an immobile mass, generally located in the inferolateral portion of the mitral anulus, caused by annular fibers calcium deposits, and rarely it can affect the whole annulus and press the myocardium (Figure 12).Imaging modalities show typical calcium deposition, and the fibrotic rim in which the calcified core is enclosed can show a peripheral LGE imaging hyperenhancement [20].Rarely, this lesion can evolve into caseous degeneration (or liquefaction necrosis), and in this case the lesion core contains a mixture of cholesterol, fatty acids, and amorphous eosinophilic infiltrate with a surrounding envelope that enfolds lymphocytes, macrophages, and multiple necrotic areas with calcifications [21].It is usually asymptomatic.However, symptoms can be caused by related complications such as mitral stenosis or regurgitation, infective endocarditis, and embolization.The central fluid proteinaceous and fatty content can show high signals on both T1-and T2-weighted sequences.Calcifications around and within the lesion are hypointense on MRI imaging but are better evaluated with CT.Peripheral LGE imaging hyperenhancement consistent with a fibrous cap is observed.

Mitral Annular Calcification and Its Caseous Degeneration
Mitral annular calcification is an immobile mass, generally located in the inferolateral portion of the mitral anulus, caused by annular fibers calcium deposits, and rarely it can affect the whole annulus and press the myocardium (Figure 12).Imaging modalities show typical calcium deposition, and the fibrotic rim in which the calcified core is enclosed can show a peripheral LGE imaging hyperenhancement [20].Rarely, this lesion can evolve into caseous degeneration (or liquefaction necrosis), and in this case the lesion core contains a mixture of cholesterol, fatty acids, and amorphous eosinophilic infiltrate with a surrounding envelope that enfolds lymphocytes, macrophages, and multiple necrotic areas with calcifications [21].It is usually asymptomatic.However, symptoms can be caused by related complications such as mitral stenosis or regurgitation, infective endocarditis, and embolization.The central fluid proteinaceous and fatty content can show high signals on both T1-and T2-weighted sequences.Calcifications around and within the lesion are hypointense on MRI imaging but are better evaluated with CT.Peripheral LGE imaging hyperenhancement consistent with a fibrous cap is observed.

Pericardial Cyst
A pericardial cyst is usually congenital in etiology, but sometimes it is acquired following pericarditis.It is often placed in the right pericardiophrenic angle (70%), and less frequently in the left one (25%) (Figure 13).Sometimes intracystic septations or enhancing walls can be detected.It is usually asymptomatic, and imaging is useful to evaluate lesion stability.However, rarely larger cysts can determine right cardiac chambers compression,

Pericardial Cyst
A pericardial cyst is usually congenital in etiology, but sometimes it is acquired following pericarditis.It is often placed in the right pericardiophrenic angle (70%), and less frequently in the left one (25%) (Figure 13).Sometimes intracystic septations or enhancing walls can be detected.It is usually asymptomatic, and imaging is useful to evaluate lesion stability.However, rarely larger cysts can determine right cardiac chambers compression, and patients may present with congestive heart failure symptoms or retrosternal pain.In these cases, surgery could be indicated [22].
Medicina 2024, 60, x FOR PEER REVIEW 13 of 37 and patients may present with congestive heart failure symptoms or retrosternal pain.In these cases, surgery could be indicated [22].

Coronary Artery Aneurism (CAA)
CAA may be mistaken for mass at cardiac ultrasonography, particularly if there is extensive peripheral thrombus.A saphenous vein coronary artery bypass grafting aneurysm can be detected 10-15 years after surgery, and it can be completely thrombosed.CT or MRI allows confident diagnosis as well as delineation of the size and extent of the aneurysm (Figure 14).Usually asymptomatic, rarely it can cause myocardial ischemia or infarction, fistula formation or can evolve into rupture.A coronary artery aneurysmal dila-

Coronary Artery Aneurism (CAA)
CAA may be mistaken for mass at cardiac ultrasonography, particularly if there is extensive peripheral thrombus.A saphenous vein coronary artery bypass grafting aneurysm can be detected 10-15 years after surgery, and it can be completely thrombosed.CT or MRI allows confident diagnosis as well as delineation of the size and extent of the aneurysm (Figure 14).Usually asymptomatic, rarely it can cause myocardial ischemia or infarction, fistula formation or can evolve into rupture.A coronary artery aneurysmal dilatation can also be found in the setting of a long-standing coronary artery fistula, as a reduced vascular resistance and increased flow caused by an abnormal communication of the coronary artery with a pulmonary artery, cardiac chamber, coronary sinus, or cardiac vein determine a dilatation of the involved artery.The right coronary artery is more frequently involved, and a left-right shunt occurs in most lesions.Coronary CT angiography is useful to evaluate the size of the dilatation, the presence of a concomitant thrombus, and the fistula anatomy [23].

Coronary Artery Aneurism (CAA)
CAA may be mistaken for mass at cardiac ultrasonography, pa extensive peripheral thrombus.A saphenous vein coronary artery by rysm can be detected 10-15 years after surgery, and it can be complete or MRI allows confident diagnosis as well as delineation of the size a eurysm (Figure 14).Usually asymptomatic, rarely it can cause myocar farction, fistula formation or can evolve into rupture.A coronary arte tation can also be found in the setting of a long-standing coronary ar duced vascular resistance and increased flow caused by an abnorma the coronary artery with a pulmonary artery, cardiac chamber, corona vein determine a dilatation of the involved artery.The right coronary quently involved, and a left-right shunt occurs in most lesions.Corona is useful to evaluate the size of the dilatation, the presence of a conc and the fistula anatomy [23].

Cardiac Chambers Aneurysm and Pseudoaneurysm
Aneurysm and pseudoaneurysms of the ventricles or atria may occur as complications of cardiac surgery, or secondary to infarction, trauma, or infection (more frequently endocarditis), and they could be occasionally mistaken for a focal mass [23].CT and MRI are very useful to define the origin of these blood-filled structures (Figure 15).

Cardiac Chambers Aneurysm and Pseudoaneurysm
Aneurysm and pseudoaneurysms of the ventricles or atria may occur as complications of cardiac surgery, or secondary to infarction, trauma, or infection (more frequently endocarditis), and they could be occasionally mistaken for a focal mass [23].CT and MRI are very useful to define the origin of these blood-filled structures (Figure 15).

IgG4-Related Disease (IgG4-RD)
IgG4-RD is a fibro-inflammatory disease that can involve nearly any organ and tissue.It is a systemic condition characterized by IgG4-positive lymphoplasmacytic tissue that infiltrates with subsequent fibrotic aftereffects.Common manifestations include major salivary and lacrimal gland enlargement, autoimmune pancreatitis, and retroperitoneal fibrosis [24].Cardiovascular involvement includes coronary stenosis or dilatation surrounded by a tumor-like lesion or periarterial thickening, pericardial thickening and effusion, constrictive pericarditis, cardiac masses (Figure 16), valvular stenosis and regurgitation, periaortitis and aortic aneurysm, pulmonary artery stenosis and pulmonary hypertension, and carotid arteries stenosis.FDG PET/CT can evaluate the activity and severity of the disease and can identify the best biopsy site.Glucocorticoids are considered the first-line agents and azathioprine is frequently used as additional therapy.Moreover, pericardial drainage, pericardiectomy, valve replacement and surgical resection of masses could be performed [25].

IgG4-Related Disease (IgG4-RD)
IgG4-RD is a fibro-inflammatory disease that can involve nearly any organ and tissue.It is a systemic condition characterized by IgG4-positive lymphoplasmacytic tissue that infiltrates with subsequent fibrotic aftereffects.Common manifestations include major salivary and lacrimal gland enlargement, autoimmune pancreatitis, and retroperitoneal fibrosis [24].Cardiovascular involvement includes coronary stenosis or dilatation surrounded by a tumor-like lesion or periarterial thickening, pericardial thickening and effusion, constrictive pericarditis, cardiac masses (Figure 16), valvular stenosis and regurgitation, periaortitis and aortic aneurysm, pulmonary artery stenosis and pulmonary hypertension, and carotid arteries stenosis.FDG PET/CT can evaluate the activity and severity of the disease and can identify the best biopsy site.Glucocorticoids are considered the first-line agents and azathioprine is frequently used as additional therapy.Moreover, pericardial drainage, pericardiectomy, valve replacement and surgical resection of masses could be performed [25].

Cardiac Chambers Aneurysm and Pseudoaneurysm
Aneurysm and pseudoaneurysms of the ventricles or atria may occur as complications of cardiac surgery, or secondary to infarction, trauma, or infection (more frequently endocarditis), and they could be occasionally mistaken for a focal mass [23].CT and MRI are very useful to define the origin of these blood-filled structures (Figure 15).

IgG4-Related Disease (IgG4-RD)
IgG4-RD is a fibro-inflammatory disease that can involve nearly any organ and tissue.It is a systemic condition characterized by IgG4-positive lymphoplasmacytic tissue that infiltrates with subsequent fibrotic aftereffects.Common manifestations include major salivary and lacrimal gland enlargement, autoimmune pancreatitis, and retroperitoneal fibrosis [24].Cardiovascular involvement includes coronary stenosis or dilatation surrounded by a tumor-like lesion or periarterial thickening, pericardial thickening and effusion, constrictive pericarditis, cardiac masses (Figure 16), valvular stenosis and regurgitation, periaortitis and aortic aneurysm, pulmonary artery stenosis and pulmonary hypertension, and carotid arteries stenosis.FDG PET/CT can evaluate the activity and severity of the disease and can identify the best biopsy site.Glucocorticoids are considered the first-line agents and azathioprine is frequently used as additional therapy.Moreover, pericardial drainage, pericardiectomy, valve replacement and surgical resection of masses could be performed [25].

Sarcoidosis
Sarcoidosis is a multisystem chronic granulomatous disease, and cardiac involvement seems to be responsible for about 10% of sarcoidosis-related deaths.The basal septum is mainly involved, and several reports showed cardiac tumor-like lesions in the ventricular septum, right ventricle, left and right atria [26].MR imaging can reveal myocardial delayed enhancement, and myocardial oedema can be found in active sarcoidosis (Figure 17).In young patients with heart failure, new atrioventricular (AV) block, and cardiac arrest cardiac sarcoidosis should be excluded.In fact, cardiac MR imaging should be performed as an early screening tool for myocardial involvement in patients presenting with AV block requiring immediate pacing for bradycardia, and FDG PET/CT segmental uptake is the main cardiac sarcoidosis feature related to active disease.Moreover, early initiation of glucocorticoids in patients with second degree AV block could avoid pacemaker implantation [27].
ment seems to be responsible for about 10% of sarcoidosis-related deaths.The basal septum is mainly involved, and several reports showed cardiac tumor-like lesions in the ventricular septum, right ventricle, left and right atria [26].MR imaging can reveal myocardial delayed enhancement, and myocardial oedema can be found in active sarcoidosis (Figure 17).In young patients with heart failure, new atrioventricular (AV) block, and cardiac arrest cardiac sarcoidosis should be excluded.In fact, cardiac MR imaging should be performed as an early screening tool for myocardial involvement in patients presenting with AV block requiring immediate pacing for bradycardia, and FDG PET/CT segmental uptake is the main cardiac sarcoidosis feature related to active disease.Moreover, early initiation of glucocorticoids in patients with second degree AV block could avoid pacemaker implantation [27].

Foreign Body
Foreign bodies can manifest as cardiac masses.They can be either iatrogenic (gossypiboma, catheter, inferior vena cava filters, guide wires, pacemaker leads) or traumatic (chopstick, bullets).Diagnosis is usually incidental in an asymptomatic patient who previously performed a surgical or intravascular procedure.However, sometimes patients can be highly symptomatic with chest pain and dyspnea caused by heart failure, perforation or obstruction of vessels or cardiac chambers [28][29][30][31].The foreign body is encapsulated in fibroinflammatory tissue, clotted blood and/or thrombus, and the shape and type of the object is sometimes difficult to recognize by imaging.Treatment strategies can vary depending on the patient's symptoms and the foreign body location and nature.However, surgical removal is often considered in these patients, especially when the patient is symptomatic or there are risks of perforation, embolization, or infection.

Hematoma
Hematoma is usually detected in patients with previous surgery, and some clips can be found around it.Pericardial hematoma is classified as acute in the first week after surgery or trauma, subacute between one and four weeks, and chronic if the hematoma persistent for more than a month.Hematoma can appear mass-like on echocardiography and as mixed density on CT (Figure 18).Density is usually high in the acute phase and then it slowly decreases.On MR it may have different signals, depending on its age and sequence used.It does not show internal enhancement, and chronic hematoma can show internal calcifications.However, sometimes it can show rim-enhancement.A hematoma usually resolves without sequela, however unfrequently it can persist and sometimes become larger over time as blood breakdown products can cause localized inflammatory reactions, which might be at the base of additional bleeding and further inflammation, causing a persisting cycle that evolve into the so called chronic expanding hematomas.On MRI, a chronic expanding hematoma can show a hypointense peripheral capsule and heterogeneous central contents indicating the presence of fresh and old blood.After heart injuries hematomas can cause symptoms within a few days with a potential risk of hemodynamic compromise.In fact, fast or slow-growing space-occupying lesions can cause hemodynamic instability due to compression of great vessels and cardiac chambers.However, patients with post-surgical pericardial hematoma are usually asymptomatic, and serial follow-up examinations are useful to evaluate disease progression, stability or regression [32][33][34].
depending on the patient's symptoms and the foreign body location and nature.However, surgical removal is often considered in these patients, especially when the patient is symptomatic or there are risks of perforation, embolization, or infection.

Hematoma
Hematoma is usually detected in patients with previous surgery, and some clips can be found around it.Pericardial hematoma is classified as acute in the first week after surgery or trauma, subacute between one and four weeks, and chronic if the hematoma persistent for more than a month.Hematoma can appear mass-like on echocardiography and as mixed density on CT (Figure 18).Density is usually high in the acute phase and then it slowly decreases.On MR it may have different signals, depending on its age and sequence used.It does not show internal enhancement, and chronic hematoma can show internal calcifications.However, sometimes it can show rim-enhancement.A hematoma usually resolves without sequela, however unfrequently it can persist and sometimes become larger over time as blood breakdown products can cause localized inflammatory reactions, which might be at the base of additional bleeding and further inflammation, causing a persisting cycle that evolve into the so called chronic expanding hematomas.On MRI, a chronic expanding hematoma can show a hypointense peripheral capsule and heterogeneous central contents indicating the presence of fresh and old blood.After heart injuries hematomas can cause symptoms within a few days with a potential risk of hemodynamic compromise.In fact, fast or slow-growing space-occupying lesions can cause hemodynamic instability due to compression of great vessels and cardiac chambers.However, patients with post-surgical pericardial hematoma are usually asymptomatic, and serial follow-up examinations are useful to evaluate disease progression, stability or regression [32][33][34].

Echinococcus Cyst
The most frequent locations of echinococcosis are the liver and lungs, followed by muscles, bone and kidneys.Cardiac hydatid occurs in about 1% of cases.Usually, the cyst

Echinococcus Cyst
The most frequent locations of echinococcosis are the liver and lungs, followed by muscles, bone and kidneys.Cardiac hydatid occurs in about 1% of cases.Usually, the cyst is identified in the LV free wall or RV free wall.Rarely, the pericardium, IVS or atria can be involved [35].Frequently, cardiac lesions are associated with the liver and/or lung [36].Diagnosis can frequently be made by echocardiography recognizing a cyst with multiple septa and daughter cysts in a patient with positive laboratory tests.However, CT and MR are useful to define a possible involvement of surrounding structures and for presurgical planning (Figure 19).Cardiac cysts can be asymptomatic or can be associated with dyspnea, chest pain, ventricular arrhythmias, valvular dysfunction, and outflow tract obstruction [37].Cardiac echinococcosis is usually managed by combining the use of antiparasitic drugs with surgical cyst excision.
planning (Figure 19).Cardiac cysts can be asymptomatic or can be ass nea, chest pain, ventricular arrhythmias, valvular dysfunction, and ou tion [37].Cardiac echinococcosis is usually managed by combining the drugs with surgical cyst excision.

Myxoma
Myxomas are the most frequent primary cardiac tumors (35%) an in the left atrium (70%) (Table 3) (Figures 20-22).A minority of them ( with Carney complex (cardiac and skin myxomas, lentiginosis, and [38].Typical echocardiographic characteristics are represented by po mobile atrial masses attached to the IAS (Table 3).LGE images show hancement due to possible cystic degeneration, necrosis, hemorrhag associated thrombus.Native T1 and T2 relaxation times and ECV val respect to normal myocardium, owing to greater fluid content and in Polypoid myxoma determines more frequently intracardiac obstruct type myxomas are more frequently associated with embolization.Surg essary and needs to be performed quickly after the diagnosis in orde of embolization.Recurrences can be observed in about 15% of patient plex and in about 5% of other patients, therefore close follow-up is rec

Benign Tumors 4.1. Myxoma
Myxomas are the most frequent primary cardiac tumors (35%) and are most located in the left atrium (70%) (Table 3) (Figures 20-22).A minority of them (10%) are associated with Carney complex (cardiac and skin myxomas, lentiginosis, and endocrine tumors) [38].Typical echocardiographic characteristics are represented by polypoid or papillary mobile atrial masses attached to the IAS (Table 3).LGE images show heterogeneous enhancement due to possible cystic degeneration, necrosis, hemorrhage, calcification, and associated thrombus.Native T1 and T2 relaxation times and ECV values are higher with respect to normal myocardium, owing to greater fluid content and interstitial space [39].Polypoid myxoma determines more frequently intracardiac obstruction, and papillary-type myxomas are more frequently associated with embolization.Surgical excision is necessary and needs to be performed quickly after the diagnosis in order to reduce the risk of embolization.Recurrences can be observed in about 15% of patients with Carney complex and in about 5% of other patients, therefore close follow-up is recommended [40,41].

Papillary Fibroelastoma (PFE)
PFE is the most frequent cardiac valve tumor.It is usually smaller than 1.5 cm and mostly located in the vascular surface of the aortic valve, or less frequently in the atrial surface of the mitral valve (Figures 23 and 24).When the mass is too small to be detected the only abnormality that may be seen is the adjacent turbulent flow on cine images.It is usually asymptomatic, however embolic events have been reported from attached thrombi or fragmentation.Surgical excision is recommended for lesions > 1 cm, left sided tumors, or in patients with cerebral embolic events or angina from coronary ostial obstruction [42].

Lipoma
Lipomas are made up of mature adipose tissue and most commonly arise in the subepicardium.On echocardiography they tend to be well circumscribed, homogenous, and hyperechoic [43].On cine MR imaging lipomas typically show "india ink" artifact, also

Papillary Fibroelastoma (PFE)
PFE is the most frequent cardiac valve tumor.It is usually smaller than 1.5 cm and mostly located in the vascular surface of the aortic valve, or less frequently in the atrial surface of the mitral valve (Figures 23 and 24).When the mass is too small to be detected the only abnormality that may be seen is the adjacent turbulent flow on cine images.It is usually asymptomatic, however embolic events have been reported from attached thrombi or fragmentation.Surgical excision is recommended for lesions > 1 cm, left sided tumors, or in patients with cerebral embolic events or angina from coronary ostial obstruction [42].

Papillary Fibroelastoma (PFE)
PFE is the most frequent cardiac valve tumor.It is usually smaller than 1.5 cm and mostly located in the vascular surface of the aortic valve, or less frequently in the atrial surface of the mitral valve (Figures 23 and 24).When the mass is too small to be detected the only abnormality that may be seen is the adjacent turbulent flow on cine images.It is usually asymptomatic, however embolic events have been reported from attached thrombi or fragmentation.Surgical excision is recommended for lesions > 1 cm, left sided tumors, or in patients with cerebral embolic events or angina from coronary ostial obstruction [42].

Lipoma
Lipomas are made up of mature adipose tissue and most commonly arise in the subepicardium.On echocardiography they tend to be well circumscribed, homogenous, and hyperechoic [43].On cine MR imaging lipomas typically show "india ink" artifact, also

Papillary Fibroelastoma (PFE)
PFE is the most frequent cardiac valve tumor.It is usually smaller than 1.5 cm and mostly located in the vascular surface of the aortic valve, or less frequently in the atrial surface of the mitral valve (Figures 23 and 24).When the mass is too small to be detected the only abnormality that may be seen is the adjacent turbulent flow on cine images.It is usually asymptomatic, however embolic events have been reported from attached thrombi or fragmentation.Surgical excision is recommended for lesions > 1 cm, left sided tumors, or in patients with cerebral embolic events or angina from coronary ostial obstruction [42].

Lipoma
Lipomas are made up of mature adipose tissue and most commonly arise in the subepicardium.On echocardiography they tend to be well circumscribed, homogenous, and hyperechoic [43].On cine MR imaging lipomas typically show "india ink" artifact, also

Lipoma
Lipomas are made up of mature adipose tissue and most commonly arise in the subepicardium.On echocardiography they tend to be well circumscribed, homogenous, and hyperechoic [43].On cine MR imaging lipomas typically show "india ink" artifact, also known as black boundary artifact or type 2 chemical shift artifact (Figures 25 and 26).Usually, they are asymptomatic and do not need treatment.However, they can rarely determine coronary arteries compression when subepicardial, arrhythmias when originating from the mid-myocardial layer or outflow obstruction when placed in the subendocardium [44].
Medicina 2024, 60, x FOR PEER REVIEW 22 of 37 known as black boundary artifact or type 2 chemical shift artifact (Figures 25 and 26).Usually, they are asymptomatic and do not need treatment.However, they can rarely determine coronary arteries compression when subepicardial, arrhythmias when originating from the mid-myocardial layer or outflow obstruction when placed in the subendocardium [44].

Rhabdomyoma
Rhabdomyomas are the most frequent pediatric primary cardiac tumors, and they are usually identified in utero or in children under 1 year of age.About 70% of them are associated with tuberous sclerosis in which rhabdomyomas are multiple in roughly 75% of cases.Multiple cardiac masses recognized at prenatal echocardiography suggests tuberous sclerosis.They are usually intramyocardial or intracavitary and frequently involve Usually, they are asymptomatic and do not need treatment.However, they can rarely determine coronary arteries compression when subepicardial, arrhythmias when originating from the mid-myocardial layer or outflow obstruction when placed in the subendocardium [44].

Rhabdomyoma
Rhabdomyomas are the most frequent pediatric primary cardiac tumors, and they are usually identified in utero or in children under 1 year of age.About 70% of them are associated with tuberous sclerosis in which rhabdomyomas are multiple in roughly 75% of cases.Multiple cardiac masses recognized at prenatal echocardiography suggests tuberous sclerosis.They are usually intramyocardial or intracavitary and frequently involve

Rhabdomyoma
Rhabdomyomas are the most frequent pediatric primary cardiac tumors, and they are usually identified in utero or in children under 1 year of age.About 70% of them are associated with tuberous sclerosis in which rhabdomyomas are multiple in roughly 75% of cases.Multiple cardiac masses recognized at prenatal echocardiography suggests tuberous sclerosis.They are usually intramyocardial or intracavitary and frequently involve the left ventricular wall (Figure 27).Most lesions spontaneously regress in early childhood; therefore, surgery is needed only in case of inflow or outflow obstruction or refractory arrhythmias [45].
Medicina 2024, 60, x FOR PEER REVIEW 23 of 37 the left ventricular wall (Figure 27).Most lesions spontaneously regress in early childhood; therefore, surgery is needed only in case of inflow or outflow obstruction or refractory arrhythmias [45].

Fibroma
Cardiac fibromas are the second most common pediatric tumor and are frequently diagnosed in the first year of life.A minority of cardiac fibromas are associated with Gorlin syndrome represented by basal cell carcinomas, brain tumors and skeletal abnormalities.They are usually identified as single tumors in the ventricular wall that do not regress; therefore, surgery is necessary.Iso-hypointensity on T1-weighted MR images, hypointensity with possible hyperintense periferic rim on T2-weighted MR images, hypointensity on first-pass perfusion, hyperintensity with possible hypointense rim on LGE imaging in association with clinical data, particularly the age of presentation, frequently allow mass characterization.However, the information about coronary anatomy and tumor blood supply provided by CT are very important for surgical planning [46,47].

Hemangioma
Hemangiomas are benign tumors composed of endothelial cells lining venous blood vessels, more frequently of the cavernous type.They are typically solitary and show evident gradual, nodular, peripheral to central post-contrast enhancement.They usually show reassuring features, as well-defined contours without invasion of contiguous structures.They are usually asymptomatic, but sometimes can cause arrhythmias, dyspnea, chest pain, congestive heart failure, or recurrent pericardial effusion especially for pericardial lesions.Very rarely they were associated with the so called Kasabach-Merritt syndrome characterized by recurring thrombocytopenia and consumptive coagulopathy.They can arise anywhere in the heart, but with a predilection for the ventricle walls, RA, and pericardium.Tumor surgical resection is the treatment of choice, and LA hemangiomas may be resected like cardiac myxomas.Also, pericardial lesions can be simply surgically removed.However, for myocardial hemangioma the risk of complications is higher.If a feeding vessel is identified, coil embolization could be considered, but it is obviously very dangerous for possible induced ischemic events [48].

Lymphangioma
Lymphangiomas are very rare primary cardiac tumors, characterized by multicystic/multilocular lesions.They are usually hypointense in T1-weighted MR imaging,

Fibroma
Cardiac fibromas are the second most common pediatric tumor and are frequently diagnosed in the first year of life.A minority of cardiac fibromas are associated with Gorlin syndrome represented by basal cell carcinomas, brain tumors and skeletal abnormalities.They are usually identified as single tumors in the ventricular wall that do not regress; therefore, surgery is necessary.Iso-hypointensity on T1-weighted MR images, hypointensity with possible hyperintense periferic rim on T2-weighted MR images, hypointensity on first-pass perfusion, hyperintensity with possible hypointense rim on LGE imaging in association with clinical data, particularly the age of presentation, frequently allow mass characterization.However, the information about coronary anatomy and tumor blood supply provided by CT are very important for surgical planning [46,47].

Hemangioma
Hemangiomas are benign tumors composed of endothelial cells lining venous blood vessels, more frequently of the cavernous type.They are typically solitary and show evident gradual, nodular, peripheral to central post-contrast enhancement.They usually show reassuring features, as well-defined contours without invasion of contiguous structures.They are usually asymptomatic, but sometimes can cause arrhythmias, dyspnea, chest pain, congestive heart failure, or recurrent pericardial effusion especially for pericardial lesions.Very rarely they were associated with the so called Kasabach-Merritt syndrome characterized by recurring thrombocytopenia and consumptive coagulopathy.They can arise anywhere in the heart, but with a predilection for the ventricle walls, RA, and pericardium.Tumor surgical resection is the treatment of choice, and LA hemangiomas may be resected like cardiac myxomas.Also, pericardial lesions can be simply surgically removed.However, for myocardial hemangioma the risk of complications is higher.If a feeding vessel is identified, coil embolization could be considered, but it is obviously very dangerous for possible induced ischemic events [48].

Lymphangioma
Lymphangiomas are very rare primary cardiac tumors, characterized by multicystic/multilocular lesions.They are usually hypointense in T1-weighted MR imaging, however few case reports showed high T1 signal intensity due to proteinaceous fluid content.They can sometimes show cystic walls and septa post-contrast enhancement.Lymphangiomas are frequently large lesions with a mean size of 6 cm at diagnosis, and therefore they can cause symptoms, such as arrhythmia, dyspnea, chest pain and heart failure.Surgical excision is usually performed [49][50][51].

Erdheim-Chester Disease (ECD)
ECD is a rare histiocytosis that was recently recognized as a hematopoietic neoplastic disorder [52].Diagnosis of ECD is made with histology and phenotype of histiocytes in appropriate clinical and radiological context [53].Symmetric diaphyseal and metaphyseal osteosclerosis in the legs is nearly always present.Cardiovascular involvement is frequently underdiagnosed and occurs in at least 50% of patients [54].The most frequent cardiovascular manifestations of ECD are infiltration of the AV groove with enhancing soft tissue often encasing the coronary arteries, pericardial thickening, enhancement and effusion, nodular or mass-like thickening of the right atrial wall and periaortic sheathing (Figure 28).One-third of patients will develop retroperitoneal fibrosis, especially around the kidneys and ureters.Central nervous system involvement, diabetes insipidus and/or exophthalmos with retro-orbital mass occur in 20% to 30% of patients.The most frequent cutaneous manifestation is xanthelasma, generally involving the eyelids or periorbital spaces.Most patients with ECD need systemic treatment at diagnosis, usually with BRAFand/or MEK-inhibitors.However, sometimes the disease can be simply monitored, particularly in asymptomatic patients with nonvital single-organ involvement or in case of minimally symptomatic disease [55].
Medicina 2024, 60, x FOR PEER REVIEW 24 of 37 however few case reports showed high T1 signal intensity due to proteinaceous fluid content.They can sometimes show cystic walls and septa post-contrast enhancement.Lymphangiomas are frequently large lesions with a mean size of 6 cm at diagnosis, and therefore they can cause symptoms, such as arrhythmia, dyspnea, chest pain and heart failure.Surgical excision is usually performed [49][50][51].

Erdheim-Chester Disease (ECD)
ECD is a rare histiocytosis that was recently recognized as a hematopoietic neoplastic disorder [52].Diagnosis of ECD is made with histology and phenotype of histiocytes in appropriate clinical and radiological context [53].Symmetric diaphyseal and metaphyseal osteosclerosis in the legs is nearly always present.Cardiovascular involvement is frequently underdiagnosed and occurs in at least 50% of patients [54].The most frequent cardiovascular manifestations of ECD are infiltration of the AV groove with enhancing soft tissue often encasing the coronary arteries, pericardial thickening, enhancement and effusion, nodular or mass-like thickening of the right atrial wall and periaortic sheathing (Figure 28).One-third of patients will develop retroperitoneal fibrosis, especially around the kidneys and ureters.Central nervous system involvement, diabetes insipidus and/or exophthalmos with retro-orbital mass occur in 20% to 30% of patients.The most frequent cutaneous manifestation is xanthelasma, generally involving the eyelids or periorbital spaces.Most patients with ECD need systemic treatment at diagnosis, usually with BRAFand/or MEK-inhibitors.However, sometimes the disease can be simply monitored, particularly in asymptomatic patients with nonvital single-organ involvement or in case of minimally symptomatic disease [55].

Solitary Fibrous Tumor (SFT)
SFT is a rare spindle cell mesenchymal lesion that usually has a pleural origin.However, primary intrapericardial SFT are reported, and vimentin, CD34, CD99, and STAT6 immunostaining positivity can allow its diagnosis.SFT is usually benign and coronary arteries are not infiltrated at coronary CT angiography.However, about 15% of SFTs are

Solitary Fibrous Tumor (SFT)
SFT is a rare spindle cell mesenchymal lesion that usually has a pleural origin.However, primary intrapericardial SFT are reported, and vimentin, CD34, CD99, and STAT6 immunostaining positivity can allow its diagnosis.SFT is usually benign and coronary arteries are not infiltrated at coronary CT angiography.However, about 15% of SFTs are locally aggressive or malignant.Complete resection is the recommended treatment, and long-term follow-up is necessary, as local recurrences are described [56].

Teratoma
Teratomas are the most common germ cell tumors and are usually benign.They are generally diagnosed in childhood or fetal life as multiloculated intrapericardial lesions with cystic and solid components typically placed near the root of the pulmonary artery or aorta.Usually asymptomatic, they can sometimes cause RA or superior vena cava compression.Focal contrast enhancing areas or signs of adjacent structures infiltration are suggestive for malignant teratomas.Complete surgical excision is recommended.Recurrences are possible, more frequently when the resection is incomplete or the teratoma is immature.Therefore, long-term follow-up is necessary with periodic imaging evaluations and alfafetoprotein levels monitoring [57,58].

Schwannoma
Schwannomas are rare, usually benign tumors, which likely arise from the cardiac branch of the vagus nerve or the cardiac plexus, and therefore in many cases they involve the right heart.However, primary malignant schwannomas have also been rarely reported.Moreover, malignant psammomatous melanotic schwannomas (MPMS) represent a little portion of all schwannomas that can be are difficult to distinguish from melanoma because of histologic and radiologic similarities, but immunohistochemical differences can be demonstrated.Typical imaging characteristics consist of non-infiltrating well-circumscribed lesions, frequently containing cystic components, sometimes with hemorrhage, and usually without calcifications.Sometimes they show a peculiar target appearance on T2-weighted images due to a central fibrocollagenous portion enclosed by a peripheral myxomatous component.The post-contrast internal enhancement is usually slow: small lesions more frequently show intense homogeneous enhancement, and larger lesions usually enhance heterogeneously.Schwannomas are often asymptomatic and can be incidentally detected on chest X-ray, chest computed tomography or coronary CT angiography.However, patients can experience nonspecific symptoms like fatigue, dyspnea, cough and/or facial edema due to large lesions that may determine great vessels, mediastinal structures or heart chambers compression.Benign schwannomas are surgically resected in order to obtain a confirmatory histopathological diagnosis, without needing any adjuvant therapy [59][60][61].

Paraganglioma
Paragangliomas are neuroendocrine tumors deriving from neural crest cells localized outside adrenal glands.A large minority of paragangliomas occur in the chest, and most of them are detected in the posterior mediastinum.Therefore, cardiac paragangliomas are extremely rare.Urine and blood tests in order to detect catecholamines and catecholamines metabolites are necessary to make the diagnosis (Figure 29).MR shows a hypo-isointense signal on T1 weighted images and an intensely high signal on T2, the so called "light bulb bright signal", with "salt and pepper" appearance on both T1 and T2 weighted sequences; salt is determined by hemoglobin degradation products due to intralesional hemorrhage and pepper is caused by flow voids related to high vascularity.Paragangliomas show immediate and intense contrast enhancement after contrast media injection, similar to arterial vessels.They frequently show peripheral LGE which depends on tumor necrosis.However, homogeneous enhancement can be shown by smaller lesions.Patients can report palpitations, flushing, headaches and may also be hypertensive, as up to 50% of paragangliomas secrete catecholamines.Paragangliomas are highly vascularized, and biopsy is contraindicated in order to avoid life-threatening bleeding.Pathology is the gold standard for paraganglioma diagnosis; however, histopathology differentiates benign from malignant lesions with difficulty, and the detection of distant metastasis is the only reliable sign of malignancy.Frequently, curative resection of paragangliomas is difficult to obtain due to complicated connections with the adjacent coronary arteries.Recurrence rates are reported of up to 25%.Therefore, long-term follow-up of the patient is required with regular CT or MR scans.Moreover, a proper family screening is required, as about 30% of paragangliomas are familial [62].
reliable sign of malignancy.Frequently, curative resection of paragangliomas is difficult to obtain due to complicated connections with the adjacent coronary arteries.Recurrence rates are reported of up to 25%.Therefore, long-term follow-up of the patient is required with regular CT or MR scans.Moreover, a proper family screening is required, as about 30% of paragangliomas are familial [62].

Secondary Tumors-Metastasis
Cardiac metastasis are the most common tumors that involve the heart (Table 4).They are more frequently located in the pericardium (about 60%), epicardium (about 20%) and myocardium (about 20%) (Figures 30-34).The more common primary tumors are breast and lung cancers that spread by direct extension or retrograde lymphatic diffusion thereby causing pericardial lesions and effusion.Melanoma typically involves the myocardium by hematogenous spread.Transvenous extension with inferior vena cava neoplastic thrombosis and intracavitary right atrium mass growth can occur in hepatocellular and renal cell carcinomas.Cardiac metastases generally show low signal intensity on MR T1-weighted images, high signal intensity on T2-weighted images and heterogeneous contrast enhancement.However, melanoma metastasis and hemorrhagic lesions can show high signal intensity on T1 weighted sequence due to the presence of paramagnetic melanin or blood degradation products.Obviously, appropriate disease staging needs to be performed first to assess a potential oncologic treatment of cardiac metastases, and PET-CT is the recommended imaging modality in case of secondary cardiac lymphomas [63,64].

Secondary Tumors-Metastasis
Cardiac metastasis are the most common tumors that involve the heart (Table 4).They are more frequently located in the pericardium (about 60%), epicardium (about 20%) and myocardium (about 20%) (Figures 30-34).The more common primary tumors are breast and lung cancers that spread by direct extension or retrograde lymphatic diffusion thereby causing pericardial lesions and effusion.Melanoma typically involves the myocardium by hematogenous spread.Transvenous extension with inferior vena cava neoplastic thrombosis and intracavitary right atrium mass growth can occur in hepatocellular and renal cell carcinomas.Cardiac metastases generally show low signal intensity on MR T1-weighted images, high signal intensity on T2-weighted images and heterogeneous contrast enhancement.However, melanoma metastasis and hemorrhagic lesions can show high signal intensity on T1 weighted sequence due to the presence of paramagnetic melanin or blood degradation products.Obviously, appropriate disease staging needs to be performed first to assess a potential oncologic treatment of cardiac metastases, and PET-CT is the recommended imaging modality in case of secondary cardiac lymphomas [63,64].

Primary Cardiac Sarcomas
Sarcomas are the most frequent malignant primary cardiac tumors, and they can be linked to Li-Fraumeni syndrome.The most common histotypes are angiosarcoma, undifferentiated pleomorphic sarcoma, leiomyosarcoma and rhabdomyosarcoma (Figures 35  and 36).The latter frequently affects childhood, and the others usually are detected in middle adulthood.Rhabdomyosarcoma usually involves the right chambers, angiosarcoma right atrium, undifferentiated pleomorphic sarcoma and leiomyosarcoma left atrium.Sarcomas are irregular lesions with low attenuation at CT, and heterogeneous enhancement at MR perfusion imaging.Angiosarcoma tends to show stronger enhancement and more hyperenhancement on T2 weighted images compared to other sarcomas.Sarcomas are usually heterogeneously isointense on T1, heterogeneously iso-hyperintense on T2-weighted images and frequently show heterogeneous LGE.When a patient has ac-

Primary Cardiac Sarcomas
Sarcomas are the most frequent malignant primary cardiac tumors, and they can be linked to Li-Fraumeni syndrome.The most common histotypes are angiosarcoma, undifferentiated pleomorphic sarcoma, leiomyosarcoma and rhabdomyosarcoma (Figures 35  and 36).The latter frequently affects childhood, and the others usually are detected in middle adulthood.Rhabdomyosarcoma usually involves the right chambers, angiosarcoma right atrium, undifferentiated pleomorphic sarcoma and leiomyosarcoma left atrium.Sarcomas are irregular lesions with low attenuation at CT, and heterogeneous enhancement at MR perfusion imaging.Angiosarcoma tends to show stronger enhancement and more hyperenhancement on T2 weighted images compared to other sarcomas.Sarcomas are usually heterogeneously isointense on T1, heterogeneously iso-hyperintense on T2-weighted images and frequently show heterogeneous LGE.When a patient has ac-

Primary Cardiac Sarcomas
Sarcomas are the most frequent malignant primary cardiac tumors, and they can be linked to Li-Fraumeni syndrome.The most common histotypes are angiosarcoma, undifferentiated pleomorphic sarcoma, leiomyosarcoma and rhabdomyosarcoma (Figures 35 and 36).The latter frequently affects childhood, and the others usually are detected in middle adulthood.Rhabdomyosarcoma usually involves the right chambers, angiosarcoma right atrium, undifferentiated pleomorphic sarcoma and leiomyosarcoma left atrium.Sarcomas are irregular lesions with low attenuation at CT, and heterogeneous enhancement at MR perfusion imaging.Angiosarcoma tends to show stronger enhancement and more hyperenhancement on T2 weighted images compared to other sarcomas.Sarcomas are usually heterogeneously isointense on T1, heterogeneously iso-hyperintense on T2-weighted images and frequently show heterogeneous LGE.When a patient has acceptable performance status and no or limited metastatic disease, resection and/or debulking should be undertaken.Moreover, chemotherapy and/or radiation therapy is usually offered [1,65,66].
ceptable performance status and no or limited metastatic disease, resection and/or debulking should be undertaken.Moreover, chemotherapy and/or radiation therapy is usually offered [1,65,66].

Primary Cardiac Lymphoma
Primary cardiac lymphomas are extranodal lymphomas that primarily involve the pericardium and/or the heart, usually the right-sided cardiac chambers, and frequently cause pericardial thickening and effusion.These lesions are thought to arise within the epicardial lymphatic network and are usually diffuse large B-cell lymphomas.Lymphomas are frequently infiltrative masses that extend along the epicardial surfaces of the heart and encase adjacent coronary arteries and/or aortic roots (Figure 37).The diagnosis can be confirmed by cytology of pericardial effusion and/or tumor tissue biopsy.MR imaging findings are the same in primary and secondary cardiac lymphomas.The most common finding in echocardiography and CT images is pericardial effusion.MR can more easily identify pericardial or right chambers masses, which usually display homogeneous isohypointensity on T1 weighted images, iso-hyperintensity on T2 weighted images, and none or minimum contrast enhancement.Lymphomas are densely cellular tumors which usually show evident diffusion restriction.Moreover, they are typically hypermetabolic on PET imaging.Primary cardiac lymphomas can show a good response to the monoclonal anti-CD20 antibody [67,68].ceptable performance status and no or limited metastatic disease, resection and/or debulking should be undertaken.Moreover, chemotherapy and/or radiation therapy is usually offered [1,65,66].

Primary Cardiac Lymphoma
Primary cardiac lymphomas are extranodal lymphomas that primarily involve the pericardium and/or the heart, usually the right-sided cardiac chambers, and frequently cause pericardial thickening and effusion.These lesions are thought to arise within the epicardial lymphatic network and are usually diffuse large B-cell lymphomas.Lymphomas are frequently infiltrative masses that extend along the epicardial surfaces of the heart and encase adjacent coronary arteries and/or aortic roots (Figure 37).The diagnosis can be confirmed by cytology of pericardial effusion and/or tumor tissue biopsy.MR imaging findings are the same in primary and secondary cardiac lymphomas.The most common finding in echocardiography and CT images is pericardial effusion.MR can more easily identify pericardial or right chambers masses, which usually display homogeneous isohypointensity on T1 weighted images, iso-hyperintensity on T2 weighted images, and none or minimum contrast enhancement.Lymphomas are densely cellular tumors which usually show evident diffusion restriction.Moreover, they are typically hypermetabolic on PET imaging.Primary cardiac lymphomas can show a good response to the monoclonal anti-CD20 antibody [67,68].

Primary Cardiac Lymphoma
Primary cardiac lymphomas are extranodal lymphomas that primarily involve the pericardium and/or the heart, usually the right-sided cardiac chambers, and frequently cause pericardial thickening and effusion.These lesions are thought to arise within the epicardial lymphatic network and are usually diffuse large B-cell lymphomas.Lymphomas are frequently infiltrative masses that extend along the epicardial surfaces of the heart and encase adjacent coronary arteries and/or aortic roots (Figure 37).The diagnosis can be confirmed by cytology of pericardial effusion and/or tumor tissue biopsy.MR imaging findings are the same in primary and secondary cardiac lymphomas.The most common finding in echocardiography and CT images is pericardial effusion.MR can more easily identify pericardial or right chambers masses, which usually display homogeneous isohypointensity on T1 weighted images, iso-hyperintensity on T2 weighted images, and none or minimum contrast enhancement.Lymphomas are densely cellular tumors which usually show evident diffusion restriction.Moreover, they are typically hypermetabolic on PET imaging.Primary cardiac lymphomas can show a good response to the monoclonal anti-CD20 antibody [67,68].

Primary Pericardial Mesothelioma
Pericardial mesothelioma is a malignant proliferation of mesothelial cells, and it is the most frequent primary malignancy of the pericardium.Obviously, a direct extension of pleural mesothelioma needs to be excluded.Interestingly, asbestos exposure is described in only 15% of cases.Conspicuous pericardial thickening is usually found; however, cytologic examination is often insufficient to make a diagnosis (Figure 38).Surgical resection can be performed, and newer-generation chemotherapeutics can be administrated to the patients, but they are very rarely curative [69].

Discussion
Cardiac pseudomasses are frequently encountered in daily practice, as well as thrombus which is more prevalent in patients with atrial fibrillation or ventricular dysfunction, whereas vegetations are not so hardly found in very sick patients, such as intensive care units ones [12,19].Cardiac tumors are rarer, and myxoma is usually considered the most common benign neoplasm.However, nowadays papillary fibroelastoma is increasingly detected thanks to high-resolution imaging which allows the diagnosis of this small valvular lesion [1].Metastases are frequent in terminal cancer patients, and malignancies are the minority of primary cardiac neoplasms [1].
Transthoracic echocardiography is usually the imaging modality that detects a cardiac lesion which needs further assessment, and transesophageal examination can be useful to confirm the presence of a mass or to diagnose a specific pseudomass [70].In fact, advanced echocardiography, such as three-dimensional, transesophageal and contrastenhanced ultrasound can adequately evaluate size, attachment to adjacent structures and hemodynamic impact of a lesion.

Primary Pericardial Mesothelioma
Pericardial mesothelioma is a malignant proliferation of mesothelial cells, and it is the most frequent primary malignancy of the pericardium.Obviously, a direct extension of pleural mesothelioma needs to be excluded.Interestingly, asbestos exposure is described in only 15% of cases.Conspicuous pericardial thickening is usually found; however, cytologic examination is often insufficient to make a diagnosis (Figure 38).Surgical resection can be performed, and newer-generation chemotherapeutics can be administrated to the patients, but they are very rarely curative [69].

Primary Pericardial Mesothelioma
Pericardial mesothelioma is a malignant proliferation of mesothelial cells, and it is the most frequent primary malignancy of the pericardium.Obviously, a direct extension of pleural mesothelioma needs to be excluded.Interestingly, asbestos exposure is described in only 15% of cases.Conspicuous pericardial thickening is usually found; however, cytologic examination is often insufficient to make a diagnosis (Figure 38).Surgical resection can be performed, and newer-generation chemotherapeutics can be administrated to the patients, but they are very rarely curative [69].

Discussion
Cardiac pseudomasses are frequently encountered in daily practice, as well as thrombus which is more prevalent in patients with atrial fibrillation or ventricular dysfunction, whereas vegetations are not so hardly found in very sick patients, such as intensive care units ones [12,19].Cardiac tumors are rarer, and myxoma is usually considered the most common benign neoplasm.However, nowadays papillary fibroelastoma is increasingly detected thanks to high-resolution imaging which allows the diagnosis of this small valvular lesion [1].Metastases are frequent in terminal cancer patients, and malignancies are the minority of primary cardiac neoplasms [1].
Transthoracic echocardiography is usually the imaging modality that detects a cardiac lesion which needs further assessment, and transesophageal examination can be useful to confirm the presence of a mass or to diagnose a specific pseudomass [70].In fact, advanced echocardiography, such as three-dimensional, transesophageal and contrastenhanced ultrasound can adequately evaluate size, attachment to adjacent structures and hemodynamic impact of a lesion.

Discussion
Cardiac pseudomasses are frequently encountered in daily practice, as well as thrombus which is more prevalent in patients with atrial fibrillation or ventricular dysfunction, whereas vegetations are not so hardly found in very sick patients, such as intensive care units ones [12,19].Cardiac tumors are rarer, and myxoma is usually considered the most common benign neoplasm.However, nowadays papillary fibroelastoma is increasingly detected thanks to high-resolution imaging which allows the diagnosis of this small valvular lesion [1].Metastases are frequent in terminal cancer patients, and malignancies are the minority of primary cardiac neoplasms [1].
Transthoracic echocardiography is usually the imaging modality that detects a cardiac lesion which needs further assessment, and transesophageal examination can be useful to confirm the presence of a mass or to diagnose a specific pseudomass [70].In fact, advanced echocardiography, such as three-dimensional, transesophageal and contrastenhanced ultrasound can adequately evaluate size, attachment to adjacent structures and hemodynamic impact of a lesion.However, CT or MR are frequently performed.MR is renowned to be the best imaging modality due to the spontaneous contrast between tissue components; therefore, it is the ideal tool in such a pathology.However, MR examinations are quite long, need patients' collaboration and some devices do not allow for performing them.Moreover, very small lesions are not so very well evaluated with MR imaging, particularly if smaller than 5 mm and mobile [71].
CT is a quick and highly available imaging technique, and it can simply assess calcifications within a lesion and coronary tree.CT could be sufficient in order to diagnose a pseudomass, a thrombus, a pericardial cyst, a vegetation, a coronary artery aneurism, a cardiac chamber aneurysm or pseudoaneurysm, a mitral annular calcification, an echinococcus cyst, or to suspect the presence of a myxoma, a papillary fibroelastoma or a lipoma.In fact, new generation CT scanners allow cardiac imaging specialists to evaluate the coronary arteries, heart, and pericardium with lower radiation doses than in the past.Moreover, in newborns, infants, and young children the high temporal resolution of new CT scanners allows a low-dose, fast and highly defined imaging acquisition.Usually, a coronary-CT angiography with retrospective acquisition and a chest venous phase acquisition are acquired.Sometimes, a delayed acquisition can be performed to evaluate the possible presence of contrast enhancement [72][73][74][75][76][77][78][79][80][81][82][83][84].
It is known that tissue characterization is an indisputable prerogative of MR imaging.In fact, it yields its best when a mass is intramural or not only intracavitary, allowing one to suspect that a lesion could be a fibroma, a rhabdomyoma, a paraganglioma, a hemangioma or a lymphangioma.Moreover, an infiltrative growth pattern can be suggested by CT images and confirmed at MR imaging.Usually performed MR imaging sequences are cine images, T1 and T2 black blood images, first-pass perfusion sequences, early gadolinium enhancement, postcontrast T1-weighted images, and late gadolinium enhancement.Moreover, native T1, T2 and postcontrast T1 mapping sequences can be acquired in order to calculate T1 time, T2 time and extracellular volume, with the aim of displaying them voxel by voxel on parametric maps and helping in tissue characterization [85][86][87][88][89][90].
Sometimes, PET/CT can be performed preoperatively, particularly in patients with suspected malignant lesions, in which the amount of Standardized Uptake Value (SUV) can raise or reduce the suspicion that a mass is malignant.Obviously, PET/CT can show focal extracardiac FDG uptake suspicious for metastasis or a very high SUV in case of lymphoma.However, it is more usually performed during the follow-up of malignant lesions [91,92].
When a cardiac lesion is identified, past medical history, age, gender and laboratory tests are necessary information to know, and nowadays a multimodality imaging approach is frequently important to try to reach a diagnosis.Sometimes biopsy is required, particularly in the suspicion of primary cardiac malignant lesions [93].
Primary malignant tumors apart from lymphoma are completely surgically resected when possible, and surgical debulking can be performed in order to improve symptoms.Myxoma needs complete resection in order to avoid embolization [94].Papillary fibroelastomas are surgically resected when larger than 1 cm, if left sided, or in patients with cerebral embolic events or angina from coronary ostial obstruction [93].Paraganglioma, schwannoma, teratoma, solitary fibrous tumor and vegetations are usually surgically resected [57,60,62].The other lesions could sometimes be surgically resected when symptomatic and systemic drugs cannot treat them.Normal intracardiac structures do not require any treatment [94].

Conclusions
CT is very useful to confirm or exclude the presence of cardiac lesions after suspicious ultrasound findings, and it allows coronary evaluation for pre-surgical planning.Nowadays MRI is the best imaging modality for lesion characterization, and it is very useful to perform imaging follow-up of cardiac tumors.Therefore, patients frequently undergo both CT and MR imaging before surgery of cardiac masses.Moreover, future technical advances in T1 and T2 mapping sequences, radiomics, artificial intelligence and PET/MRI could

Figure 2 .
Figure 2. Axial cine MR sequences (a) and T1-weighted images (b) in a patient with prominent crista terminalis.

Figure 2 .
Figure 2. Axial cine MR sequences (a) and T1-weighted images (b) in a patient with prominent crista terminalis.

Figure 4 .
Figure 4. Right ventricle pronounced muscolar ridge which extends from the basal ventricular septum to the free wall on cine images (a), late gadolinium enhancement MR sequence (b), and T2 mapping image (c).

Figure 4 .
Figure 4. Right ventricle pronounced muscolar ridge which extends from the basal ventricular septum to the free wall on cine images (a), late gadolinium enhancement MR sequence (b), and T2 mapping image (c).

Figure 5 .
Figure 5. 81-year-old female patient with lipomatous hypertrophy of the interatrial septum in CT scan.

Figure 6 .
Figure 6.A 65-year-old male patient with lipomatous hypertrophy of the interatrial septum on coronal and axial CT images (a,b), volume rendering (c), which showed focal uptake of FDG in PET/CT scan (d).

Figure 6 .
Figure 6.A 65-year-old male patient with lipomatous hypertrophy of the interatrial septum on coronal and axial CT images (a,b), volume rendering (c), which showed focal uptake of FDG in PET/CT scan (d).

Figure 8 .
Figure 8.A 67-year-old female patient with left ventricle thrombus related to myocardial infarction on late gadolinium enhancement MR sequence.

Figure 8 .
Figure 8.A 67-year-old female patient with left ventricle thrombus related to myocardial infarction on late gadolinium enhancement MR sequence.

Figure 8 .
Figure 8.A 67-year-old female patient with left ventricle thrombus related to myocardial infarction on late gadolinium enhancement MR sequence.

Figure 12 .
Figure 12.A 74-year-old female patient with mitral annular calcification on precontrast-phase CT image (a) and cine sequence (b).

Figure 12 .
Figure 12.A 74-year-old female patient with mitral annular calcification on precontrast-phase CT image (a) and cine sequence (b).

Figure 13 .
Figure 13.A 70-year-old female patient with a large right pericardiophrenic angle pericardial cyst on axial T2 STIR (a) and four-chamber view late gadolinium enhancement (b) MR imaging.

Figure 13 .
Figure 13.A 70-year-old female patient with a large right pericardiophrenic angle pericardial cyst on axial T2 STIR (a) and four-chamber view late gadolinium enhancement (b) MR imaging.

Figure 14 .
Figure 14.A 65-year-old male patient with a partially thrombosed giant aneurysm of the left main coronary artery on short-axis view (a), multiplanar reconstruction (b) and volume rendering (c,d) CT images.

Figure 15 .
Figure 15.A 67-year-old male patient with huge left ventricle aneurysm after myocardial infarction on four-chamber cine sequence (a) and axial late gadolinium enhancement MR sequence (b).

Figure 15 .
Figure 15.A 67-year-old male patient with huge left ventricle aneurysm after myocardial infarction on four-chamber cine sequence (a) and axial late gadolinium enhancement MR sequence (b).

Figure 15 .
Figure 15.A 67-year-old male patient with huge left ventricle aneurysm after myocardial infarction on four-chamber cine sequence (a) and axial late gadolinium enhancement MR sequence (b).

Figure 16 .
Figure 16.Right atrioventricular groove IgG4-related disease on arterial CT phase (a) and on cine MR sequence (b).

Figure 17 .
Figure 17.A 57-year-old male patient with sarcoidosis on axial cine sequence (a), short tau inversion recovery sequence (b), hilar and pulmonary involvement on balanced-steady-state free precession images (c), T2 mapping (d), native T1 mapping (e) and post-contrast T1 mapping (f) sequences (normal T2 value < 50 ms and normal native T1 value < 1045 in our site).

Figure 17 .
Figure 17.A 57-year-old male patient with sarcoidosis on axial cine sequence (a), short tau inversion recovery sequence (b), hilar and pulmonary involvement on balanced-steady-state free precession images (c), T2 mapping (d), native T1 mapping (e) and post-contrast T1 mapping (f) sequences (normal T2 value < 50 ms and normal native T1 value < 1045 in our site).

Figure 19 .
Figure 19.A 26-year-old female patient with left ventricular myocardium ech is hyperintense with a dark rim on cine MR sequence.

Figure 19 .
Figure 19.A 26-year-old female patient with left ventricular myocardium echinococcus cyst, which is hyperintense with a dark rim on cine MR sequence.

Figure 21 .
Figure 21.Left atrial myxoma on three-chambers view (a) and three-dimensional volume r (b) CT images in a 45-year-old male patient.

Figure 21 .
Figure 21.Left atrial myxoma on three-chambers view (a) and three-dimensional volume r (b) CT images in a 45-year-old male patient.

Figure 21 .
Figure 21.Left atrial myxoma on three-chambers view (a) and three-dimensional volume rendering (b) CT images in a 45-year-old male patient.

Figure 24 .
Figure 24.A left ventricular outflow tract fibroelastoma of about one centimeter during transesophageal echocardiography (a), CT (b) and cine MR imaging (c).These images show that a fibroelastoma can be more easily evaluable during ultrasonography.

Figure 24 .
Figure 24.A left ventricular outflow tract fibroelastoma of about one centimeter during transesophageal echocardiography (a), CT (b) and cine MR imaging (c).These images show that a fibroelastoma can be more easily evaluable during ultrasonography.

Figure 24 .
Figure 24.A left ventricular outflow tract fibroelastoma of about one centimeter during transesophageal echocardiography (a), CT (b) and cine MR imaging (c).These images show that a fibroelastoma can be more easily evaluable during ultrasonography.

Figure 24 .
Figure 24.A left ventricular outflow tract fibroelastoma of about one centimeter during transesophageal echocardiography (a), CT (b) and cine MR imaging (c).These images show that a fibroelastoma can be more easily evaluable during ultrasonography.

Figure 27 .
Figure 27.A neonate with a basal anterior and mid-cavity anterior left ventricular wall mass on balanced steady-state free precession sequence (a) and short tau inversion recovery MR sequence (b).

Figure 27 .
Figure 27.A neonate with a basal anterior and mid-cavity anterior left ventricular wall mass on balanced steady-state free precession sequence (a) and short tau inversion recovery MR sequence (b).

Figure 28 .
Figure 28.A 56-year-old male patient with right atrial and right atrioventricular groove masses on four-chamber cine sequence (a), short tau inversion recovery (b), double-inversion recovery (c) and native T1 mapping (d) MR sequences (normal native T1 value < 1045 in our site).

Figure 28 .
Figure 28.A 56-year-old male patient with right atrial and right atrioventricular groove masses on four-chamber cine sequence (a), short tau inversion recovery (b), double-inversion recovery (c) and native T1 mapping (d) MR sequences (normal native T1 value < 1045 in our site).

Figure 29 .
Figure 29.A right atrioventricular groove paraganglioma with predominant peripheral enhancement due to central necrosis on arterial phase CT image.

Figure 29 .
Figure 29.A right atrioventricular groove paraganglioma with predominant peripheral enhancement due to central necrosis on arterial phase CT image.

Figure 30 .
Figure 30.CT images of a 66-year-old female patient with multiple pericardial metastases (wh arrows-images (a,b)) and lymphadenopathies (white arrow-image (c)) who previously und went left lobectomy for lung adenocarcinoma.

Figure 30 .
Figure 30.CT images of a 66-year-old female patient with multiple pericardial metastases (white arrows-images (a,b)) and lymphadenopathies (white arrow-image (c)) who previously underwent left lobectomy for lung adenocarcinoma.

Figure 30 .
Figure 30.CT images of a 66-year-old female patient with multiple pericardial metastases (white arrows-images (a,b)) and lymphadenopathies (white arrow-image (c)) who previously underwent left lobectomy for lung adenocarcinoma.

Figure 32 .
Figure 32.Left ventricle metastasis on precontrast (a) and postcontrast (b) transthoracic echocardiogram images; primitive lung lesion (c) and cardiac metastasis on venous phase CT (d); cardiac secondary tumor on four-chamber cine (e) and short-axis T2 STIR (f) MR imaging.

Figure 32 .
Figure 32.Left ventricle metastasis on precontrast (a) and postcontrast (b) transthoracic echocardiogram images; primitive lung lesion (c) and cardiac metastasis on venous phase CT (d); cardiac secondary tumor on four-chamber cine (e) and short-axis T2 STIR (f) MR imaging.

Figure 33 .
Figure 33.A 72-year-old male patient with right ventricular outflow tract colorectal cancer metastasis in CT scan (a), MR imaging (b,c) and FDG PET/CT scan (d).

Figure 33 .
Figure 33.A 72-year-old male patient with right ventricular outflow tract colorectal cancer metastasis in CT scan (a), MR imaging (b,c) and FDG PET/CT scan (d).

Figure 33 .
Figure 33.A 72-year-old male patient with right ventricular outflow tract colorectal cancer metastasis in CT scan (a), MR imaging (b,c) and FDG PET/CT scan (d).

Figure 36 .
Figure 36.Right ventricular outflow tract and pulmonary primary cardiac leiomyosarcoma at CT (a,b).

Figure 36 .
Figure 36.Right ventricular outflow tract and pulmonary primary cardiac leiomyosarcoma at CT (a,b).

Figure 36 .
Figure 36.Right ventricular outflow tract and pulmonary primary cardiac leiomyosarcoma at CT (a,b).

Figure 37 .
Figure 37.A 63-year-old male patient with right heart large B-cell lymphoma on four-chamber (a), axial (b) and short-axis CT (c) views.

Figure 37 .
Figure 37.A 63-year-old male patient with right heart large B-cell lymphoma on four-chamber (a), axial (b) and short-axis CT (c) views.

Medicina 2024 , 37 Figure 37 .
Figure 37.A 63-year-old male patient with right heart large B-cell lymphoma on four-chamber (a), axial (b) and short-axis CT (c) views.