Myocardial and Pericardial Disease: Difference between revisions

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Is described under ‘Secondary Myocardial Disease’

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Is described under ‘Secondary Myocardial Disease’

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Is described under ‘Secondary Myocardial Disease’

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Is described under ‘Secondary Myocardial Disease’

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DCM has a highly variable clinical course. Approximately half of DCM patients respond well to routine heart failure medication, and a minority of patients even shows an improving clinical course. Conversely, a subgroup can be identified with a highly unfavourable clinical course, not responsive to heart failure medication and rapidly progressing to inotropy- or LVAD-dependency. Overall, 5-year survival rates approximate 30%.

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Amyloidosis is a disease that results from tissue deposition of fibrils that have a distinct secondary structure of a beta-pleated sheet configuration, leading to characteristic histological changes. Amyloid depositions can occur in almost any organ, but usually remains clinically undetected unless extensive depositions are present.  

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The most frequent types of amyloidosis are the AL (primary) and AA (secondary) types. AL amyloidosis is a plasma cell dyscrasia, which can occur solitarily or in association with multiple myeloma. AA amyloidosis can be considered a complication of chronic inflammatory disease states such as rheumatoid arthritis, in which the depositions consist of fragments of serum amyloid A, which is an acute phase reactant.

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Cardiac amyloidosis is a progressive infiltrative cardiomyopathy. The primary form carries the highest cardiac involvement of approximately one third to half of patients, where deposits may be present even in the absence of clinical symptoms. Secondary amyloidosis is less frequently accompanied by cardiac infiltration, approximately 5% of cases, and is less likely associated with ventricular dysfunction due to a smaller size and more favourable location of the depositions. Familial amyloidosis is associated with clinical signs of cardiac involvement in a quarter of patients, typically presenting after the age of 35 with a distinct involvement of the cardiac conduction system. In senile amyloidosis, the extent of deposits may vary widely from solitarily atrial involvement up to extensive ventricular infiltration.  

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Diagnostic testing should include a 12-lead ECG, possibly with Holter monitoring, and routine echocardiography. Specific characteristics are a low-voltage 12-lead ECG with increase septal and posterior wall ventricular thickness.

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A physical examination may reveal an elevated jugular venous pressure, and signs of systemic edema. Auscultation frequently reveals an apical murmur due to mitral regurgitation, and a third heart sound, but the presence of a fourth heart sound may exclude amyloidosis, as atrial infiltration causes impaired atrial contraction.

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Routine 12-lead ECG shows low voltage in the limb leads, and a pseudoinfarct pattern in approximately 50% of patients. Furthermore, conduction abnormalities occur frequently, as does atrial fibrillation.

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Thickening of the left ventricular wall with diastolic dysfunction are early echocardiografic features of the disease. In advancing disease, wall thickening increases, resulting in a restrictive cardiomyopathy. “Sparkling” myocardium is a distinct characteristic of cardiac amyloidosis, referring to an increased echogenicity of the myocardium. However, only a minority of patients has this pattern. Doppler evaluation shows a restrictive pattern with E dominance and a short deceleration time.

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Few treatments for cardiac amyloidosis exist, and those available are dependent on the type of amyloidosis present. Hence, typing of the disease is pertinent. AL amyloidosis may be treated with chemotherapy using alkylating agents alone or in combination with bone marrow transplantation. Heart transplantation in combination with bone marrow transplantation after high-dose chemotherapy was shown to be result in approximately a third of treated patients surviving over 5 years, but as the great majority of patients with AL amyloidosis has severe non-cardiac amyloidosis, most patients are not suitable transplant candidates. Patients with other types of amyloidosis frequently have less affected hearts, and progression of the disease is slow. AA amyloidosis may respond to anti-inflammatory and immunosupressive drugs that reduce production of the acute-phase reactant protein. If heart failure is present, it is usually more prone to routine medical treatment to reduce symptoms. If needed, heart transplantation can be performed successfully. In patients where transthyretine is the amyloidogenic protein, liver transplantation may be curative as tranthyretine is produced in the liver, but the cardiac disease may progress regardless in some patients.

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Sarcoidosis is a multisystem inflammatory condition characterized by the formation of non-caseating granulomas, most frequently affecting the lungs and lymphatic system. Myocardial involvement is seen in one quarter of cases only. Genetic factors are suggested as there was found to be an aggregation of cases within families.

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Non-caseating granulomas may infiltrate the myocardium, leading to fibrotic scarring of the myocardium. Involvement of the myocardium is usually patchy, resulting in a relatively high likelihood of false-negative results from biopsy. Cardiac sarcoidosis must be differentiated from chronic active myocarditis and giant cell myocarditis.

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Patients may present with syncope, heart block or congestive heart failure. Sudden cardiac death may well be the initial manifestation of the disease due to malignant ventricular arrhythmias, but both atrial and ventricular arrhythmia is common at initial presentation. Symptoms of heart failure may result from direct myocardial involvement, but can also be due to extensive pulmonary fibrosis; cor pulmonale.

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Early detection of the disease is critical for its clinical course. Immunosuppression using corticosteroids to halt the progression of inflammation is the treatment of choice in sarcoidosis, to which myocardial dysfunction, conduction disturbances, and arrhythmias may all respond. Most important is the differentiation of sarcoidosis from giant cell myocarditis, which is a more aggressive disorder requiring intensive medical and mechanical support and frequently necessitating heart transplantation. Pacemaker or ICD implantation is indicated in patients with conduction disorders or malignant arrhythmias, as medical treatment is usually ineffective in these cases.  

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Hemochromatosis is defined as a disorder of the iron metabolism, resulting in accumulation of iron in parenchymal tissues. In particular cardiac, liver, gonadal and pancreatic involvements are typical for hemochromatosis, in which the toxicity of redox-active iron results in organ dysfunction. Typically, hemochromatosis leads to a combination of heart failure, cirrhosis, impotence, diabetes and arthritis. Although several organ systems are usually involved, cardiac complications predominate the initial presentation, which are dependent on the site and amount of cardiac depositions. DCM is the typical phenotype of cardiac involvement, but a restrictive pattern may be present.

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Symptoms at initial presentation may vary. Echocardiography may show increased left ventricular wall thickness, ventricular dilatation, and ventricular dysfunction. CMR imaging represents a sensitive mean and may aid in early detection of the disease. Electrocardiographic characteristics include ST-segment and T-wave abnormalities as well as supraventricular arrhythmias, but occur as the disease advances. Biochemical testing reveals increased elevated transferrine saturation, increase plasma iron levels with low or normal iron binding capacity.

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Repeated phlebotomy is the cornerstone of hemochromatosis treatment, although chelating agents such as deferoxamine may be considered. Early detection of the disease is critical, as depletion of iron overload may result in complete reversal of symptoms at this stage. Evidence was found that a threshold exists beyond which iron depletion does not result in recovery of function. At end-stage disease, heart transplantation is a viable option with good survival rates. Importantly, screening of first degree relatives is important to ensure early detection of hereditary forms of hemochromatosis.

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Age of onset may be highly variable, with cyanosis, failure to thrive or dysmorphic features described in the neonatal period, to adult patients presenting with LV failure or ventricular arrhythmia. Possibly, sudden cardiac death entails one of the manifestations of LVNC, although evidence is only limited at this moment. Owing to technical advances in the field of echocardiography, predominantly an increase in image resolution, LVNC has only recently been recognized as an independent entity in the spectrum of cardiomyopathies, which supposedly has frequently been misdiagnosed as HCM in the past.

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