Edema

=**The Pharmacologic Treatment of Edema**=


 * Edema is the swelling of tissues that occurs when excessive fluid accumulates within the tissue. Fluid comprised of water and electrolytes, with a very small amount of protein and other macromolecules, normally leaves capillaries and small postcapillary venules by a process called filtration. Filtration is primarily driven by the capillary hydrostatic pressure, and the amount filtered per unit time is additionally influenced by the permeability of the vessel wall (endothelium and basement membrane). ([|Click here] for more details on the physical forces involved in filtration). The fluid that filters into the tissue flows within the intercellular space (the interstitium) and most of it is reabsorbed at the venular end of capillaries where the hydrostatic pressure is lower. Some of the filtered fluid is taken up by [|lymphatic vessels] and returned to the circulation.**

__**Causes of Edema**__ Edema may be caused by: Increased [|__capillary hydrostatic pressure__] (as occurs when venous pressures become elevated by gravitational forces, volume expanded states, in heart failure or with venous obstruction)

Decreased [|__plasma oncotic pressure__] (as occurs with hypoproteinemia) Increased [|__capillary permeability__] caused by proinflammatory mediators (e.g., histamine, bradykinin) or by damage to the structural integrity of capillaries so that they become more "leaky" (as occurs in tissue trauma, burns, and severe inflammation) Lymphatic obstruction (as occurs in filariasis) The most common cause of edema in patients with cardiovascular disorders is **heart failure** In left ventricular failure, blood backs up into the pulmonary circuit. This increase in pulmonary blood volume (i.e., pulmonary congestion) leads to increased pulmonary capillary pressures and fluid filtration into the lungs. This is termed pulmonary edema, and can be life-threatening. As left ventricular failure becomes more severe, or during right ventricular failure, blood backs up into the systemic venous circulation. This elevates venous pressures and capillary hydrostatic pressures, which can lead to edema especially in the feet and legs. Sometimes fluid will accumulate in the abdominal cavity causing ascites. It is important to note that heart failure patients, because of activation of the **renin-angiotensin-aldosterone system**, retain sodium and water. This increases circulating blood volume and further increases venous and capillary pressures, which enhances edema formation. Sometimes patients with severe hypertension will also present with systemic edema because of elevated capillary pressures, although it is important to note that capillary pressure is far more sensitive to elevations in venous pressure than to elevations in arterial pressure. Finally, edema can be a side effect of vasodilator drugs that are used to treat hypertension. Vasodilation of precapillary resistance vessels increases downstream capillary hydrostatic pressure and fluid filtration

__**Drug Treatment for Edema**__ Edema is treated by manipulating the physical factors that are responsible for causing edema. Most commonly, this is done by giving **diuretics** to stimulate renal excretion of sodium and water, which reduces blood volume and venous and capillary pressures. Improving cardiac function in heart failure patients will also contribute to reducing venous pressures and edema. If other mechanisms are involved in causing the edema, such as lymphatic blockage, varicose veins, venous thrombosis, tissue damage or inflammation, these conditions need to be corrected by other interventions.