2015
DOI: 10.3390/ijms161126068
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Molecular, Cellular and Functional Effects of Radiation-Induced Brain Injury: A Review

Abstract: Radiation therapy is the most effective non-surgical treatment of primary brain tumors and metastases. Preclinical studies have provided valuable insights into pathogenesis of radiation-induced injury to the central nervous system. Radiation-induced brain injury can damage neuronal, glial and vascular compartments of the brain and may lead to molecular, cellular and functional changes. Given its central role in memory and adult neurogenesis, the majority of studies have focused on the hippocampus. These findin… Show more

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Cited by 134 publications
(119 citation statements)
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References 158 publications
(242 reference statements)
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“…32 We found in this work that neuron-specific KO of Atg7 reduces neural stem and progenitor cell death and caspase-dependent apoptosis after irradiation both in the dentate gyrus and the cerebellum. The functional relationship between apoptosis and autophagy is complex, and these two processes might be triggered by common upstream signals.…”
Section: Discussionmentioning
confidence: 58%
“…32 We found in this work that neuron-specific KO of Atg7 reduces neural stem and progenitor cell death and caspase-dependent apoptosis after irradiation both in the dentate gyrus and the cerebellum. The functional relationship between apoptosis and autophagy is complex, and these two processes might be triggered by common upstream signals.…”
Section: Discussionmentioning
confidence: 58%
“…Radiation therapy is used widely for the treatment of diffuse primary and metastatic brain tumors and is a common and effective therapy for many types of cancer. However, during treatment healthy brain tissue is also exposed to the radiation, and consequently many patients may experience neurological symptoms associated with damage to healthy tissues following radiotherapy Because of the potential for neurological problems, a number of excellent review articles have been published on radiation‐induced brain injury . Based on clinical symptoms, the complications of radiation therapy are divided into acute, early delayed, and late delayed injury .…”
Section: Introductionmentioning
confidence: 99%
“…However, during treatment healthy brain tissue is also exposed to the radiation, and consequently many patients may experience neurological symptoms associated with damage to healthy tissues following radiotherapy 2 Because of the potential for neurological problems, a number of excellent review articles have been published on radiation-induced brain injury. 3,4 Based on clinical symptoms, the complications of radiation therapy are divided into acute, early delayed, and late delayed injury. 5 As therapeutic techniques have improved and survival duration after irradiation has increased, there is a growing awareness of late delayed injuries including possible cerebrovascular and neurocognitive effects.…”
Section: Introductionmentioning
confidence: 99%
“…IR is said to inhibit neurogenesis and also induces apoptosis in rat neural stem cells through the activation of the JNK pathway . Studies advocate that IR upregulates reactive oxygen species, oxidative stress, and apoptosis in the hippocampus, which causes the loss of neuronal progenitor cells, which in turn leads to the inhibition of neurogenesis . ER stress has also been shown to play a major role in the axonal injury .…”
Section: Introductionmentioning
confidence: 99%