Difference between revisions of "Restrictive Cardiomyopathy - Feline Cardiomyopathies"
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==Pathophysiology== | ==Pathophysiology== | ||
| + | The ventricular chambers appear normal or nearly normal, but are restricted in accepting diastolic filling due to the reduced compliance and rigidity of the ventricular walls. | ||
| + | |||
| + | Under normal physiological conditions, diastole can be divided into four phases: | ||
| + | 1. Isovolumetric relaxation | ||
| + | 2. Rapid ventricular filling | ||
| + | 3. Slow ventricular filling (diastasis) | ||
| + | 4. Atrial contraction | ||
| + | |||
| + | Ventricular filling is influenced by ventricular relaxation, ventricular compliance, atrial contraction and the pressure gradient between the left and right ventricles. The intraventricular pressure gradient is important as it causes an 'untwisting' at the cardiac apex in early diastole; which has a suction effect contributing to ventricular filling. | ||
| + | |||
| + | In RCM, reduced ventricular compliance and distensibility increases the final diastolic pressure, resulting in enlargement of the left atrium. Increased left atrial pressure has a knock-on effect of increased pressure in the pulmonary veins; thus leading to left-sided congestive heart failure (CHF). Tachycardia, associated with icreased sympathetic drive in cardiac dysfunction, contributes to disease progression. Coronary blood flow to the myocardium usually occurs during diastole, tachycardia results in a shorter period of diastole; therefore coronary blood flow is reduced. Reduced myocardial perfusion stimulates myocardial fibrosis, which contributes to rigidity and poor compliance of the ventricles. Finally, the increased atrial pressure and reduced atrial function results in slow blood flow within the atria. This may result in thrombus formation and, in some cases, embolisation of the clot to cause arterial thromboembolism (ATE). | ||
| + | |||
==Clinical Signs== | ==Clinical Signs== | ||
==Diagnosis== | ==Diagnosis== | ||
Revision as of 15:41, 2 December 2012
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This article is still under construction. |
Overview
Restrictive cardiomyopathy (RCM) is a series of acquired pathologies of the feline myocardium. The common element is marked diastolic dysfunction without major alteration of systolic function. In RCM, the compliance and distensibility of the ventricular walls is reduced, such that filling of the ventricles in diastole is compromised. This ultimately reduces the amount of blood that the left ventricle (LV) can accept. During the rapid filling phase of diastole, the pressure within the LV rises abruptly, preventing the entry of additional blood from atrial contraction in late diastole. This consequently increases left atrial pressure and the diameter of the left atrium or both atria. Grossly, RCM is characterised by a normal or near-normal appearance of the ventricles with dilation of the left atrium or both atria. The echocardiographic appearance of the cardiac chambers 2D images of cats with early RCM may be normal; however severe diastolic dysfunction may be evident from M-mode and Doppler imaging.
Aetiology
In humans, RCM is usually secondary to systemic infiltrative pathologies (e.g. amyloidosis, sarcoidosis) or radiation exposure; with pathology localized at the myocardial or endomyocardial level. Cats may also have myocardial and endomyocardial forms of RCM, but this seems to occur as a primary cardiomyopathy in cats. However, endomyocardial fibrosis has been associated with viral, hypereosinophilic and immune-mediated pathologies in rare cases.
Pathophysiology
The ventricular chambers appear normal or nearly normal, but are restricted in accepting diastolic filling due to the reduced compliance and rigidity of the ventricular walls.
Under normal physiological conditions, diastole can be divided into four phases: 1. Isovolumetric relaxation 2. Rapid ventricular filling 3. Slow ventricular filling (diastasis) 4. Atrial contraction
Ventricular filling is influenced by ventricular relaxation, ventricular compliance, atrial contraction and the pressure gradient between the left and right ventricles. The intraventricular pressure gradient is important as it causes an 'untwisting' at the cardiac apex in early diastole; which has a suction effect contributing to ventricular filling.
In RCM, reduced ventricular compliance and distensibility increases the final diastolic pressure, resulting in enlargement of the left atrium. Increased left atrial pressure has a knock-on effect of increased pressure in the pulmonary veins; thus leading to left-sided congestive heart failure (CHF). Tachycardia, associated with icreased sympathetic drive in cardiac dysfunction, contributes to disease progression. Coronary blood flow to the myocardium usually occurs during diastole, tachycardia results in a shorter period of diastole; therefore coronary blood flow is reduced. Reduced myocardial perfusion stimulates myocardial fibrosis, which contributes to rigidity and poor compliance of the ventricles. Finally, the increased atrial pressure and reduced atrial function results in slow blood flow within the atria. This may result in thrombus formation and, in some cases, embolisation of the clot to cause arterial thromboembolism (ATE).