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Query: UMLS:C0025362 (
mental retardation
)
15,878
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Two patients who had cerebral aspergillosis with massive intracerebral hemorrhage were presented. Case I was a 59-year-old woman who had slight
mental retardation
. There was swelling in the left forehead, from which mucosal cysts of frontal sinus had been removed 2 years before her admission. She had a diagnosis of subdural abscess and radical operation was performed. Aspergillus was found in the abscess histologically. Three months after the operation, CT scan revealed multiple abscess in bilateral frontal lobe. When she lost consciousness suddenly 4 months after the operation, CT scan showed a huge intracerebral hematoma. Case 2 was a 16-year-old girl who suffered from immunological dysfunction caused by more than 6 months antibiotics-steroid treatment for pneumonitis. She lost her consciousness after complaints of severe headache. CT scan showed a heterogeneous high density area with severe
brain edema
in the left temporal lobe. The removal of hematoma was performed immediately. The level of her consciousness improved, but she died of the complication of DIC and renal failure 14 days after the hemorrhage. Autopsy revealed a number of aspergillomas in lungs, kidneys, gastrointestinal tract, liver and pancreas. Marked necrosis and a number of aspergillus hyphae which invaded and penetrated the wall of cerebral vessels were found in the brain tissue. It was presumed that such a huge intracerebral hematoma was caused by direct invasion and penetration into the brain of aspergillus from the blood vessels. The diagnosis of cerebral aspergillosis is made mainly by the pathological examination of the tissue obtained at surgery or autopsy.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:[Two cases of cerebral aspergillosis with intracerebral hemorrhage]. 322 71
Hyperammonemia is mainly found in hepatic encephalopathy and in genetic defects of the urea cycle or other pathways of the intermediary metabolism. Clinically a difference has to be made between chronic moderate hyperammonemia and acutely increased concentrations. Pathogenetic mechanisms of ammonia toxicity to the brain are partly unraveled. In some animal models confounding variables, such as the reduced intake of food and amino acid imbalance due to liver insufficiency, do not allow to establish unequivocal causal relationships between the ammonia concentration and measured effects. In chronic moderate hyperammonemia an increased flux through the serotonin pathway is a key factor. It is caused by an increased transport of large neutral amino acids (including tryptophan) through the blood-brain barrier, accentuated by the imbalance of plasma amino acids in hepatic insufficiency. It is stimulated by D- or L-glutamine. Evidence is presented showing that a functioning gamma-glutamyl cycle (glutathione formation) is a prerequisite. In acute hyperammonemia involvement of NMDA receptors, glutamate, NO and cGMP plays an additional role. In hyperammonemic crises the increased cerebral blood flow leads to
brain edema
; factors discussed here are increased osmolytes in astrocytes and serotoninergic activity. Recent data indicate that axonal development is affected by ammonia and can be normalized in vitro by creatine supplementation in developing mixed brain cell aggregate cultures, thus reviving the old hypothesis of the impact of hyperammonemia on energy metabolism in the developing brain that could cause
mental retardation
.
...
PMID:Mechanisms of hyperammonemia. 1224 Oct 9
Acute hyperammonemia (HA) causes cerebral edema and brain damage in children with urea cycle disorders (UCDs) and in patients in acute liver failure. Chronic HA is associated with developmental delay and
mental retardation
in children with UCDs, and with neuropsychiatric symptoms in patients with chronic liver failure. Astrocytes are a major cellular target of hyperammonemic encephalopathy, and changes occurring in these cells are thought to be causally related to the
brain edema
of acute HA. To study the effect of HA on astrocytes in vivo, we crossed the Otc(spf) mouse, a mouse with the X-linked UCD ornithine transcarbamylase (OTC) deficiency, with the hGFAP-EGFP mouse, a mouse selectively expressing green fluorescent protein in astrocytes. We used FACS to purify astrocytes from the brains of hyperammonemic and healthy Otcspf/GFAP-EGFP mice. RNA isolated from these astrocytes was used in microarray expression analyses and qRT-PCR. When compared with healthy littermates, we observed a significant downregulation of the gap-junction channel connexin 43 (Cx43) the water channel aquaporin 4 (Aqp4) genes, and the astrocytic inward-rectifying potassium channel (Kir) genes Kir4.1 and Kir5.1 in hyperammonemic mice. Aqp4, Cx43, and Kir4.1/Kir5.1 are co-localized to astrocytic end-feet at the brain vasculature, where they regulate potassium and water transport. Since, NH4+ ions can permeate water and K+-channels, downregulation of these three channels may be a direct effect of elevated blood ammonia levels. Our results suggest that alterations in astrocyte-mediated water and potassium homeostasis in brain may be key to the development of the
brain edema
.
...
PMID:Gene expression profiling of astrocytes from hyperammonemic mice reveals altered pathways for water and potassium homeostasis in vivo. 1818 79
Bacterial meningitis remains a major cause of death and neurological and hearing sequels. In adults, the death rate ranges from 16 to 37% in meningitis due to Pneumococcus pneumoniae and neurological sequels occur in 30 to 52% of survivors. In childhood, the prognosis is better, with a death rate ranging from 2 to 15%, higher for Pneumococcus pneumoniae. Seventy-five percent of children survive without any sequel, 15% with hearing disorders (up to 30% with Pneumococcus), and rarely (3-4%) present with
mental retardation
, motor deficit, or epilepsy. In addition to the type of germ, the risk of sequels is six times higher in case of Pneumococcus, several factors of poor prognosis are described on admission: degree of coma, neurological deficit, cranial nerve palsy, high protein level, high erythrocytes count and low leukocytes count in CSF (less than 600 or 1000 leukocytes per microliter). Any neurological complication such as epilepsy, stroke,
brain edema
, hydrocephalus, or hemodynamic failure will be correlated to a poor outcome. Hearing must be tested within 15 days, followed by audiologic consultation and MRI focused on labyrinths to detect early onset cochlear ossification. One year after meningitis, behavior and cognitive skills must be assessed, including IQ, memory, attention and executive functions, adaptive abilities, to set up specific educative and teaching strategies.
...
PMID:[Long-term follow-up of bacterial meningitis - sequels in children and adults: incidence, type, and assessment issues]. 1939 75
