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Query: UMLS:C0034063 (
pulmonary edema
)
10,665
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Severe uremia is now a rare occurrence in most developed nations, and yet is still present in many countries of the world. It includes clinical manifestations such as calciphylaxis and uremic frost, which are now rarely seen. Patients with extremely high levels of blood urea nitrogen (above 175 mg/dL) are at a higher risk of experiencing first-time hemodialysis-related complications, in particular dialysis
disequilibrium syndrome
(DDS). DDS is a central nervous disorder characterized by a wide variety of neurological symptoms that range from nausea and vomiting to even death due to cerebral edema. There are 2 main theories to explain its pathophysiology: the reverse urea effect, which considers that the shift of urea between brain intracellular space and plasma is not immediate, causing a higher concentration of urea within the brain and leading to cerebral edema. The second theory considers that after hemodialysis, patients have transient paradoxical metabolic acidosis within the central nervous system, displacing Na(+) and K(+) from organic anions, making them osmotically active and again leading to cerebral edema. The main goal is to prevent the occurrence of DDS, for which there are several proposed measures including continuous renal replacement therapies. Once established, treatment should be focused on supportive therapy. Another uncommon phenomenon described in patients who initiate hemodialysis is transient pulmonary leukocyte margination, which in conjunction with an inflammatory milieu, may lead to non-cardiogenic
pulmonary edema
. We present the case of a young adult with severe uremia who, despite application of recommended measures, developed DDS and non-cardiogenic
pulmonary edema
.
...
PMID:Dialysis disequilibrium syndrome and other treatment complications of extreme uremia: a rare occurrence yet not vanished. 1863 82
Cerebral edema is a potentially life-threatening complication shared by diseases of different etiology, such as diabetic ketoacidosis, acute liver failure, high altitude exposure, dialysis
disequilibrium syndrome
, and salicylate intoxication.
Pulmonary edema
is also habitually present in these disorders, indicating that the microcirculatory disturbance causing edema is not confined to the brain. Both cerebral and pulmonary subclinical edema may be detected before it becomes clinically evident. Available evidence suggests that tissue hypoxia or intracellular acidosis is a commonality occurring in all of these disorders. Tissue ischemia induces physiological compensatory mechanisms to ensure cell oxygenation and carbon dioxide removal from tissues, including hyperventilation, elevation of red blood cell 2,3-bisphosphoglycerate content, and capillary vasodilatation. Clinical, laboratory, and necropsy findings in these diseases confirm the occurrence of low plasma carbon dioxide partial pressure, increased erythrocyte 2,3-bisphosphoglycerate concentration, and capillary vasodilatation with increased vascular permeability in all of them. Baseline tissue hypoxia or intracellular acidosis induced by the disease may further deteriorate when tissue oxygen requirement is no longer matched to oxygen delivery resulting in massive capillary vasodilatation with increased vascular permeability and plasma fluid leakage into the interstitial compartment leading to edema affecting the brain, lung, and other organs. Causative factors involved in the progression from physiological adaptation to devastating clinical edema are not well known and may include uncontrolled disease, malfunctioning adaptive responses, or unknown factors. The role of carbon monoxide and local nitric oxide production influencing tissue oxygenation is unclear.
...
PMID:Brain edema in diseases of different etiology. 2257 70
