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Chronic pulmonary heart disease usually results in right ventricular hypertrophy (RVH), whereas acute pulmonary heart disease usually results in dilatation. Hypertrophy is an adaptive response to a long-term increase in pressure. Individual muscle cells grow larger (in thickness) and change to drive the increased contractile force required to move the blood against greater resistance. Dilatation is a stretching (in length) of the ventricle in response to acute increased pressure.
To be classified as pulmonary heart disease, the cause must originate in the pulmonary circulation system; RVH due to a systemic defect is not classified as pulmonary heart disease. Two causes are vascular changes as a result of tissue damage (e.g. disease, hypoxic injury), and chronic hypoxic pulmonary vasoconstriction. If left untreated, then death may result. The heart and lungs are intricately related; whenever the heart is affected by a disease, the lungs risk following and vice versa.
The symptoms/signs of pulmonary heart disease (cor pulmonale) can be non-specific and depend on the stage of the disorder, and can include blood backing up into the systemic venous system, including the hepatic vein. As pulmonary heart disease progresses, most individuals will develop symptoms like:
The pathophysiology of pulmonary heart disease (cor pulmonale) has always indicated that an increase in right ventricular afterload causes RV failure (pulmonary vasoconstriction, anatomic disruption/pulmonary vascular bed and increased blood viscosity are usually involved ), however most of the time, the right ventricle adjusts to an overload in chronic pressure. According to Voelkel, et al., pressure overload is the initial step for changes in RV, other factors include:
Treatment requires diuretics (to decrease strain on the heart).Oxygen is often required to resolve the shortness of breath. Additionally, oxygen to the lungs also helps relax the blood vessels and eases right heart failure. When wheezing is present, the majority of individuals require a bronchodilator. A variety of medications have been developed to relax the blood vessels in the lung, calcium channel blockers are used but only work in few cases and according to NICE are not recommended for use at all.
Anticoagulants are used when venous thromboembolism is present. Venesection is used in severe secondary polycythemia (because of hypoxia), which improves symptoms though survival rate has not been proven to increase. Finally, transplantation of single/double lung in extreme cases of cor pulmonale is also an option.
The epidemiology of pulmonary heart disease (cor pulmonale) accounts for 7% of all heart disease in the U.S. According to Weitzenblum, et al., the mortality that is related to cor pulmonale is not easy to ascertain, as it is a complication of COPD.
^Voelkel, Norbert F.; Quaife, Robert A.; Leinwand, Leslie A.; Barst, Robyn J.; McGoon, Michael D.; Meldrum, Daniel R.; Dupuis, Jocelyn; Long, Carlin S.; Rubin, Lewis J. (2006-10-24). "Right Ventricular Function and Failure Report of a National Heart, Lung, and Blood Institute Working Group on Cellular and Molecular Mechanisms of Right Heart Failure". Circulation. 114 (17): 1883-1891. doi:10.1161/CIRCULATIONAHA.106.632208. ISSN0009-7322. PMID17060398.
Jamal, K.; Fleetham, J. A.; Thurlbeck, W. M. (1990-05-01). "Cor Pulmonale: Correlation with Central Airway Lesions, Peripheral Airway Lesions, Emphysema, and Control of Breathing". American Review of Respiratory Disease. 141 (5_pt_1): 1172-1177. doi:10.1164/ajrccm/141.5_Pt_1.1172. ISSN0003-0805. PMID2339840.