Hepatic encephalopathy (HE) is a frequent complication of both ac

Hepatic encephalopathy (HE) is a frequent complication of both acute and chronic liver disease. In the United States, 600,000 patients have been estimated to have cirrhosis; 30% to 45% of these patients develop overt hepatic encephalopathy (OHE),1 and 60% develop minimal hepatic encephalopathy (MHE).2 Annually, 25,000 deaths are caused by cirrhosis in the United

States; this makes it the third most common cause of death after heart disease and check details cancer among persons 45 to 65 years of age.3 After the first episode of HE, the 1-year survival rate is 42%, and the 3-year survival rate is only 23% without liver transplantation.4 HE can be classified as MHE or OHE. MHE is a discrete clinical entity characterized by a normal clinical examination, although cognitive deficits can be elicited by

neuropsychological testing. MHE may cause subtle but definite impairments in motor skills, attention, visual perception, and fine motor activities and thus lead to reduced function and quality of life.2 According to etiology, HE can be classified into three groups.5 Type A is associated with acute liver failure, type C is associated with cirrhosis, and type B is defined as HE due to portosystemic shunting in the absence of intrinsic liver disease. Selleckchem Sirolimus Type C, which is the most common type encountered, can be self-limited and caused by a precipitating factor or can be persistent and chronic. Our understanding of the pathophysiology of HE remains incomplete. However, it is clear that an increased ammonia level is frequently implicated and click here that astrocytes are the primary cells involved. Acute liver failure may be associated with astrocyte

swelling, which may be profound and result in brain edema, increased intracranial pressure, and brain herniation leading to death in 30% of patients. In contrast, the characteristic feature in patients with cirrhosis and HE is the presence of Alzheimer type II astrocytosis.6 The Alzheimer type II astrocyte is considered a manifestation of cerebral edema in chronic liver failure and is characterized by cytoplasmic enlargement, an enlarged swollen nucleus with a basophilic nucleolus, and chromatin clumping.6 The exact mechanism by which ammonia causes astrocyte swelling is unclear; however, astrocytes are the only cells in the brain that can detoxify ammonia. These cells contain glutamate transporters, which facilitate the intracellular movement of glutamate. Down-regulation of glutamate transporter 1 has been observed in rodents with hyperammonemia; this leads to abnormal glutamatergic neurotransmission and may be responsible for some of the neurological manifestations of HE.7 Cultured astrocytes exposed to ammonia develop a mitochondrial permeability transition, which can lead to astrocyte swelling.8 Within astrocytes, glutamate combines with ammonia to form glutamine. Glutamine in turn may cause osmotic stress resulting in further astrocyte edema.

No related posts.

Leave a Reply

Your email address will not be published. Required fields are marked *

*

You may use these HTML tags and attributes: <a href="" title=""> <abbr title=""> <acronym title=""> <b> <blockquote cite=""> <cite> <code> <del datetime=""> <em> <i> <q cite=""> <strike> <strong>