Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
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Drug
Enzyme
Compound
Query: UNIPROT:P20020 (
adenosine triphosphatase
)
3,299
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Sodium-potassium
adenosine triphosphatase
(
ATPase
) enzyme was determined in the brain tissue of 11 patients with head injury and 6 control patients. Patients with head injury included in this study were selected from two categories: (a) patients in deep coma due to severe head injury [Glasgow Coma Scale (GCS) less than 8; 6 cases]; (b) patients with depressed skull fractures with dural tears who were conscious and able to give an adequate verbal response (GCS greater than 10; 5 cases). The level of the enzyme was significantly reduced in comatose patients with severe head injury as compared to the controls (P less than 0.001) or to conscious patients with depressed fractures (P less than 0.001). In the group of conscious patients with depressed fractures, the enzyme level was no different from that of the controls (P = 0.4215). All comatose patients with severely reduced enzyme levels subsequently died, whereas those with depressed fractures with normal enzyme levels survived. The relationship between a low enzyme level and
brain edema
in severe head injury is discussed.
...
PMID:The prognostic value of the brain sodium-potassium ATPase enzyme concentration in head injury. 165 53
The effects of polyunsaturated fatty acids on
brain edema
formation have been studied in rats. Intracerebral injection of polyunsaturated fatty acids (PUFAs), including linolenic acid (18:3) and arachidonic acid (20:4), caused significant increases in cerebral water and sodium content concomitant with decreases in potassium content and Na+- and K+- dependent
adenosine triphosphatase
activity. There was gross and microscopic evidence of edema. Saturated fatty acids and monounsaturated fatty acid were not effective in inducing
brain edema
. The [125I]-bovine serum albumin spaces increased twofold and threefold at 24 hours with 18:3 and 20:4, respectively, indicating vasogenic edema with increased permeability of brain endothelial cells. Staining of the brain was observed five minutes after injection of Evans blue dye followed by arachidonic acid perfusion. A major decrease in brain potassium content was evidence of concurrent cellular (cytotoxic) edema as well. The induction of
brain edema
by arachidonic acid was dose dependent and maximal between 24 and 48 hours after perfusion. Dexamethasone (10 mg/kg) was effective in ameliorating the
brain edema
, whereas a cyclooxygenase inhibitor, indomethacin (10 mg/kg), was not. These data indicate that arachidonic acid and other PUFAs have the ability to induce vasogenic and cellular
brain edema
and further support the hypothesis that the degradation of phospholipids and accumulation of PUFAs, particularly arachidonic acid, initiate the development of
brain edema
in various disease states.
...
PMID:Induction of brain edema following intracerebral injection of arachidonic acid. 630 72
Over the past 20 years it has become increasingly apparent that hyponatremic encephalopathy is a major cause of inhospital morbidity and mortality, particularly in postoperative patients. The factors that may lead to death or permanent brain damage and the susceptible patient groups have been gradually elucidated. Hyponatremic encephalopathy most commonly leads to brain damage in young women and in prepubescent children. The causes of brain damage include
brain edema
, cerebral hypoxemia, decreased brain blood flow, increased intracranial pressure, and improper therapy. Cerebral hypoxia occurs through a combination of impaired brain adaptation and cerebral vasoconstriction. Brain adaptation consists largely of brain cell loss of sodium and potassium by means of the Na-K
adenosine triphosphatase
(
ATPase
) system. There is also loss of organic osmolytes. The brain Na-K
ATPase
system is impaired by a combination of vasopressin plus estrogen and is stimulated by testosterone. Similarly, vasopressin plus estrogen leads to cerebral vasoconstriction, resulting in a decrement of brain oxygen utilization and cerebral blood flow. Vasopressin also directly decreases brain production of ATP. The combination leads to hypoxic brain damage, which appears to be the major cause of brain damage associated with hyponatremic encephalopathy. Measurement of arterial PO2 in patients with symptomatic hyponatremia usually demonstrates a PO2 <50 mm Hg. Improper therapy is another possible cause of brain damage in patients with hyponatremic encephalopathy. The type and distribution of such lesions are similar to those found in patients with hyponatremic encephalopathy who have severe hypoxia. Current scientific knowledge indicates that patient survival can be improved through aggressive treatment of hypoxia associated with hyponatremic encephalopathy, particularly in young women.
...
PMID:Influence of hypoxia and sex on hyponatremic encephalopathy. 1684 87
