Add to ORKGA b s t r a c t Cerebral hypoxic-ischaemic injury is involved in many central nervous system diseases. The mechanisms of neuron injury and death in cerebral hypoxic ischaemia remain unclear. There have been many theories on pathogenesis of neuron injury and death in cerebral hypoxic ischaemia, such as the toxicity of excitatory amino acid, NO, the production of oxygen free radicals, chondriosome injury, complement component, injury of immunological inflammation, matrix metalloproteinase, dopamine, Ca 2 + overloading, cell apoptosis and so on. The aim of this review is to describe recent observations regarding the mechanisms of neuron injury and death in cerebral hypoxic ischaemia
Cellular mechanisms, both destructive and protective, that are associated with cerebral ischemia are...
Neurones undergo diverse forms of cell death depending on the nature and severity of the stress. The...
Oxidative stress has emerged as a key deleterious factor in brain ischemia and reperfusion. Malfunct...
Cerebral injury is a critical aspect of the management of patients in intensive care. Pathological c...
Ischemia is defined as a reduction in blood flow to a level that is sufficient to alter normal cellu...
Cerebral ischemia is a result of insufficient blood flow to the brain. It leads to limited supply of...
Mechanisms of Mitochondria-Induced Brain Damage Following Ischemia and Hypoglycemia Following prolon...
Ischemic stroke is an important cause of mortality and invalidity. Focal cerebral ischemia induces m...
Aims: To investigate the mechanisms of neuronal cell death after hypoxia-ischemia in the developing ...
AbstractMitochondria play important roles as the powerhouse of the cell. After cerebral ischemia, mi...
Normal brain function is highly dependent on oxygen and nutrient supply and when the demand for oxyg...
Normal brain function is highly dependent on oxygen and nutrient supply and when the demand for oxyg...
Role of calcium ion (Ca2+) in the functioning of neurons from their naive state to mature state is o...
AbstractNeurones undergo diverse forms of cell death depending on the nature and severity of the str...
Apoptosis may contribute to a significant proportion of neuron death following acute brain ischemia ...
Cellular mechanisms, both destructive and protective, that are associated with cerebral ischemia are...
Neurones undergo diverse forms of cell death depending on the nature and severity of the stress. The...
Oxidative stress has emerged as a key deleterious factor in brain ischemia and reperfusion. Malfunct...
Cerebral injury is a critical aspect of the management of patients in intensive care. Pathological c...
Ischemia is defined as a reduction in blood flow to a level that is sufficient to alter normal cellu...
Cerebral ischemia is a result of insufficient blood flow to the brain. It leads to limited supply of...
Mechanisms of Mitochondria-Induced Brain Damage Following Ischemia and Hypoglycemia Following prolon...
Ischemic stroke is an important cause of mortality and invalidity. Focal cerebral ischemia induces m...
Aims: To investigate the mechanisms of neuronal cell death after hypoxia-ischemia in the developing ...
AbstractMitochondria play important roles as the powerhouse of the cell. After cerebral ischemia, mi...
Normal brain function is highly dependent on oxygen and nutrient supply and when the demand for oxyg...
Normal brain function is highly dependent on oxygen and nutrient supply and when the demand for oxyg...
Role of calcium ion (Ca2+) in the functioning of neurons from their naive state to mature state is o...
AbstractNeurones undergo diverse forms of cell death depending on the nature and severity of the str...
Apoptosis may contribute to a significant proportion of neuron death following acute brain ischemia ...
Cellular mechanisms, both destructive and protective, that are associated with cerebral ischemia are...
Neurones undergo diverse forms of cell death depending on the nature and severity of the stress. The...
Oxidative stress has emerged as a key deleterious factor in brain ischemia and reperfusion. Malfunct...