227 The presence of heart disease, as manifested by cardiac enlargement and a gallop rhythm, together with evidence of cardiac failure, such as dyspnea, basilar rales, venous distention,
Trang 1Chapter 036 Edema
(Part 6)
Edema of Heart Failure
(See also Chap 227) The presence of heart disease, as manifested by cardiac enlargement and a gallop rhythm, together with evidence of cardiac failure, such as dyspnea, basilar rales, venous distention, and hepatomegaly, usually indicate that edema results from heart failure Noninvasive tests, such as echocardiography, may be helpful in establishing the diagnosis of heart disease The edema of heart failure typically occurs in the dependent portions of the body
Edema of the Nephrotic Syndrome
(See also Chap 277) Marked proteinuria (>3.5 g/d), hypoalbuminemia (<35 g/L), and, in some instances, hypercholesterolemia are present This syndrome
Trang 2may occur during the course of a variety of kidney diseases, which include glomerulonephritis, diabetic glomerulosclerosis, and hypersensitivity reactions A history of previous renal disease may or may not be elicited
Edema of Acute Glomerulonephritis and Other Forms of Renal Failure
(See also Chap 277) The edema occurring during the acute phases of glomerulonephritis is characteristically associated with hematuria, proteinuria, and hypertension Although some evidence supports the view that the fluid retention is due to increased capillary permeability, in most instances the edema results from primary retention of NaCl and H2O by the kidneys owing to renal insufficiency This state differs from congestive heart failure in that it is characterized by a normal (or sometimes even increased) cardiac output and a normal arterial–mixed venous oxygen difference Patients with edema due to renal failure commonly have evidence of arterial hypertension as well as pulmonary congestion on chest roentgenograms even without cardiac enlargement, but they may not develop
orthopnea Patients with chronic renal failure may also develop edema due to
primary renal retention of NaCl and H2O
Edema of Cirrhosis
Trang 3(See also Chap 302) Ascites and biochemical and clinical evidence of hepatic disease (collateral venous channels, jaundice, and spider angiomas) characterize edema of hepatic origin The ascites (Chap 44) is frequently refractory to treatment because it collects as a result of a combination of obstruction of hepatic lymphatic drainage, portal hypertension, and hypoalbuminemia A sizable accumulation of ascitic fluid may increase intraabdominal pressure and impede venous return from the lower extremities; hence, it tends to promote accumulation of edema in this region as well
Edema of Nutritional Origin
A diet grossly deficient in protein over a prolonged period may produce hypoproteinemia and edema The latter may be intensified by the development of beriberi heart disease, also of nutritional origin, in which multiple peripheral arteriovenous fistulae result in reduced effective systemic perfusion and effective arterial blood volume, thereby enhancing edema formation (Chap 71) Edema may actually become intensified when famished subjects are first provided with an adequate diet The ingestion of more food may increase the quantity of NaCl ingested, which is then retained along with H2O So-called refeeding edema may also be linked to increased release of insulin, which directly increases tubular Na+
Trang 4reabsorption In addition to hypoalbuminemia, hypokalemia and caloric deficits may be involved in the edema of starvation
Other Causes of Edema
These include hypothyroidism, in which the edema (myxedema) is located typically in the pretibial region and which may also be associated with periorbital puffiness; exogenous hyperadrenocortism; pregnancy; and administration of estrogens and vasodilators, particularly dihydropyridines such as nifedipine
Distribution of Edema
The distribution of edema is an important guide to its cause Thus, edema limited to one leg or to one or both arms is usually the result of venous and/or lymphatic obstruction Edema resulting from hypoproteinemia characteristically is generalized, but it is especially evident in the very soft tissues of the eyelids and face and tends to be most pronounced in the morning because of the recumbent posture assumed during the night Less common causes of facial edema include trichinosis, allergic reactions, and myxedema Edema associated with heart failure,
by contrast, tends to be more extensive in the legs and to be accentuated in the evening, a feature also determined largely by posture When patients with heart
Trang 5failure have been confined to bed, edema may be most prominent in the presacral region Paralysis reduces lymphatic and venous drainage on the affected side and may be responsible for unilateral edema