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Hyperammonemia, or high ammonia levels, is a metabolic disturbance characterised by an excess of ammonia in the blood. Severe hyperammonemia is a dangerous condition that may lead to brain injury and death. It may be primary or secondary. Ammonia is a substance that contains nitrogen. It is a product of the catabolism of protein.
The brain is very complex, and is composed of many different areas and types of tissue, or matter. The different functions of different tissues in the brain may be more or less susceptible to age-induced changes. [6] The brain matter can be broadly classified as either grey matter, or white matter.
[2] [6] It may be supported by blood ammonia levels, an electroencephalogram, or computer tomography (CT scan) of the brain. [4] [6] Hepatic encephalopathy is possibly reversible with treatment. [1] This typically involves supportive care and addressing the triggers of the event. [4] Lactulose is frequently used to decrease ammonia levels. [1]
Of the 859 participants, 179 also underwent brain magnetic resonance imaging (MRI) scans at each follow-up visit to assess brain volume—because where brains are concerned, size matters. Brain ...
Treatments with anticancer chemotherapeutic agents often are toxic to the cells of the brain, leading to memory loss and cognitive dysfunction that can persist long after the period of exposure. This condition, termed chemo brain, appears to be due to DNA damages that cause epigenetic changes in the brain that accelerate the brain aging process ...
GS is present predominantly in the brain, kidneys, and liver. [4] [10] GS in the brain participates in the metabolic regulation of glutamate, the detoxification of brain ammonia, the assimilation of ammonia, recyclization of neurotransmitters, and termination of neurotransmitter signals. [4] [14] GS, in the brain, is found primarily in ...
Hyperammonemia in the brain, typically occurring as a secondary complication of primary liver disease and known as hepatic encephalopathy, is a condition that affects glutamate/GABA–glutamine cycling in the brain. [2] Current research into autism also indicates potential roles for glutamate, glutamine, and/or GABA in autistic spectrum ...
Studies comparing the effects of aging on episodic memory, semantic memory, short-term memory and priming find that episodic memory is especially impaired in normal aging; some types of short-term memory are also impaired. [9] The deficits may be related to impairments seen in the ability to refresh recently processed information. [10]