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Query: UMLS:C0085584 (
encephalopathy
)
18,178
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Cerebral edema and hepatic encephalopathy are major complications of acute liver failure. Brain herniation caused by increased intracranial pressure as a result of cell swelling is the major cause of death in this condition. Evidence available currently suggests that the rapid accumulation of ammonia by the brain is the major cause of the central nervous system complications of acute liver failure. Increased brain ammonia may cause cell swelling via the osmotic effects of an increase in astrocytic glutamine concentrations or by inhibition of glutamate removal from brain extracellular space. Acute liver failure results in altered expression of several genes in brain, some of which code for important proteins involved in CNS function such as the glucose (GLUT-1) and glutamate (GLT-1) transporters, the astrocytic structural protein glial fibrillary acidic protein (GFAP) the "peripheral-type" benzodiazepine receptor (PTBR) and the water channel protein,
aquaporin
IV. Loss of expression of GLT-1 results in increased extracellular brain glutamate in acute liver failure. Experimental acute liver failure also results in post-translational modifications of the serotonin and noradrenaline transporters resulting in increased extracellular concentrations of these monoamines. Therapeutic measures currently used to prevent and treat brain edema and
encephalopathy
in patients with acute liver failure include mild hypothermia and the ammonia-lowering agent L-ornithine-L-aspartate.
...
PMID:Alterations in expression of genes coding for key astrocytic proteins in acute liver failure. 1174 25
Acute liver failure results in
encephalopathy
and brain edema that is characterized by astrocytic cell swelling. Molecular biological techniques have led to the identification of alterations in expression of several genes coding for key astrocytic proteins in acute liver failure. Such proteins include amino acid transporters, structural proteins, the endothelial cell glucose transporter GLUT-1, the mitochondrial "peripheral-type" benzodiazepine receptor, and the water channel protein
aquaporin
IV. Magnetic resonance spectroscopic studies reveal increased brain lactate concentrations that are positively correlated with severity of
encephalopathy
and brain edema in acute liver failure, suggesting a deficit of cellular oxidative capacity and impending brain energy failure. Mild hypothermia prevents brain edema in acute liver failure, and mechanisms responsible for this beneficial effect include reduced blood-brain ammonia transfer as well as normalization of astrocytic amino acid transport and brain energy metabolism. Further elucidation of the molecular mechanisms responsible for brain edema and
encephalopathy
in acute liver failure will undoubtedly lead to novel treatment strategies for these complications.
...
PMID:Molecular neurobiology of acute liver failure. 1452 78
In this study, we demonstrate that mice deficient in TNFR1 (TNFR1(-/-)) were resistant to LPS-induced
encephalopathy
. Systemic administration of lipopolysaccharide (LPS) induces a widespread inflammatory response similar to that observed in sepsis. Following LPS administration TNFR1(-/-) mice had less caspase-dependent apoptosis in brain cells and fewer neutrophils infiltrating the brain (p<0.039), compared to control C57Bl6 (TNFR1(+/+)) mice. TNFR1-dependent increase in
aquaporin
(AQP)-4 mRNA and protein expression was observed with a concomitant increase in water content, in brain (18% increase in C57Bl6 mice treated with LPS versus those treated with saline), similar to cerebral edema observed in sepsis. Furthermore, absence of TNFR1 partially but significantly reduced the activation of astrocytes, as shown by immunofluorescence and markedly inhibited iNOS mRNA expression (p<0.01). Septic encephalopathy is a devastating complication of sepsis. Although, considerable work has been done to identify the mechanism causing the pathological alterations in this setting, the culprit still remains an enigma. Our results demonstrate for the first time that endotoxemia leads to inflammation in brain, with alteration in blood-brain barrier, up-regulation of AQP4 and associated edema, neutrophil infiltration, astrocytosis, as well as apoptotic cellular death, all of which appear to be mediated by TNF-alpha signaling through TNFR1.
...
PMID:TNF is a key mediator of septic encephalopathy acting through its receptor, TNF receptor-1. 1788 56
Hyponatremia is the most common electrolyte abnormality in hospitalized patients. When symptomatic (hyponatremic
encephalopathy
), the overall morbidity is 34%. Individuals most susceptible to death or permanent brain damage are prepubescent children and menstruant women. Failure of the brain to adapt to the hyponatremia leads to brain damage. Major factors that can impair brain adaptation include hypoxia and peptide hormones. In children, physical factors--discrepancy between skull size and brain size--are important in the genesis of brain damage. In adults, certain hormones--estrogen and vasopressin (usually elevated in cases of hyponatremia)--have been shown to impair brain adaptation, decreasing both cerebral blood flow and oxygen utilization. Initially, hyponatremia leads to an influx of water into the brain, primarily through glial cells and largely via the water channel
aquaporin
(AQP)4. Water is thus shunted into astrocytes, which swell, largely preserving neuronal cell volume. The initial brain response to swelling is adaptation, utilizing the Na(+)-K(+)-ATPase system to extrude cellular Na(+). In menstruant women, estrogen + vasopressin inhibits the Na(+)-K(+)-ATPase system and decreases cerebral oxygen utilization, impairing brain adaptation. Cerebral edema compresses the respiratory centers and also forces blood out of the brain, both lowering arterial Po(2) and decreasing oxygen utilization. The hypoxemia further impairs brain adaptation. Hyponatremic encephalopathy leads to brain damage when brain adaptation is impaired and is a consequence of both cerebral hypoxia and peptide hormones.
...
PMID:Brain cell volume regulation in hyponatremia: role of sex, age, vasopressin, and hypoxia. 1844 91
The syndrome of inappropriate secretion of antidiuretic hormone (SIADH)/syndrome of inappropriate antidiuresis is characterized by a hypotonic hyponatremia, with an insufficiently diluted urine given the plasmatic hypoosmolality, in the absence of hypovolemia (with or without a third space), hypotension, renal or heart failure, cirrhosis of the liver, hypothyroidism, adrenal insufficiency, vomiting, or other non-osmotic stimuli of ADH secretion. The response of ADH to the infusion of hypertonic saline divides SIADH into 4 different types. In type D, there is no alteration in ADH secretion. Rather, the defect is the maintained permeability of kidney
aquaporin
-2 channels to water. Activating mutations of the V2 receptor have been identified. The most frequent cause of SIADH is the use of drugs that induce secretion of the hormone. Old age is per se a risk factor for its development. SIADH is underdiagnosed, and hospitalization often worsens the clinical situation, due to an iatrogenic excess in the use of oral and i.v. liquids, often hypotonic, together with a reduction in salt intake. Treatment is directed towards normalization of natremia when possible, together with the avoidance of both hyponatremic
encephalopathy
as well as the osmotic demyelinization syndrome. Cases of "appropriate" secretion of ADH with normovolemic hyponatremia and high mortality rates should be treated with the same urgency as SIADH--such is the case of post-surgical hyponatremia.
...
PMID:[Current considerations in syndrome of inappropriate secretion of antidiuretic hormone/syndrome of inappropriate antidiuresis]. 2113 Sep 59
Optic neuropathy and transverse myelitis (TM) are common symptoms of multiple sclerosis (MS) but may also be seen in association with the antibody-mediated autoimmune disorder, neuromyelitis optica (NMO). We report a female patient presenting with intractable vomiting and hiccups and TM shortly followed by an acute
encephalopathy
, most likely due to NMO spectrum disorder. Serum and cerebrospinal fluid NMO antibodies were negative. Serial MRI abnormalities included longitudinally extensive TM of the cervical cord, focal T2-weighted hyperintensity of the area postrema and lesions in both thalami and the hypothalamus. Clinical and MRI involvement of these brain regions, which have high
aquaporin
expression, in conjunction with a spinal lesion extending over three vertebral segments strongly favoured a diagnosis of NMO. She required several courses of intravenous methylprednisolone and plasmapheresis before receiving intravenous rituximab therapy. NMO spectrum disorder should be considered in the differential diagnosis of atypical central nervous system presentations such as intractable vomiting and hiccups and acute
encephalopathy
. Recognition of this syndrome has significant implications as its treatment and prognosis differs from MS.
...
PMID:Spectrum disorder of neuromyelitis optica in a patient presenting with intractable vomiting and hiccups, transverse myelitis and acute encephalopathy. 2292 18
