about
Pathophysiology, diagnosis, and treatment of radiation necrosis in the brainApoptosis induced in vivo by photodynamic therapy in normal brain and intracranial tumour tissueNADPH oxidase mediates radiation-induced oxidative stress in rat brain microvascular endothelial cellsPostradiation imaging changes in the CNS: how can we differentiate between treatment effect and disease progression?Gamma knife irradiation of injured sciatic nerve induces histological and behavioral improvement in the rat neuropathic pain modelCerebral radiation necrosis complicating stereotactic radiosurgery for arteriovenous malformation.Facial nerve preservation and tumor control after gamma knife radiosurgery of unilateral acoustic tumors.The diagnosis and treatment of pseudoprogression, radiation necrosis and brain tumor recurrenceDelayed radiation necrosis of the central nervous system in patients irradiated for pituitary tumoursRadiation-induced changes in normal-appearing white matter in patients with cerebral tumors: a diffusion tensor imaging study.Hippocampal neuron number is unchanged 1 year after fractionated whole-brain irradiation at middle age.Magnetic resonance images related to clinical outcome after psychosurgical intervention in severe anxiety disorder.Neurology of the pituitary gland.Irradiation induces regionally specific alterations in pro-inflammatory environments in rat brain.Sex-dependent effects of 56Fe irradiation on contextual fear conditioning in C57BL/6J mice.Phase I three-dimensional conformal radiation dose escalation study in newly diagnosed glioblastoma: Radiation Therapy Oncology Group Trial 98-03Differential effects of radiation and age on diffusion tensor imaging in rats.Whole brain radiotherapy for brain metastasis.Low dose cranial irradiation-induced cerebrovascular damage is reversible in mice.Reirradiation of recurrent medulloblastoma: does clinical benefit outweigh risk for toxicity?Potential toxicities of prophylactic cranial irradiation.Radiation attenuates physiological angiogenesis by differential expression of VEGF, Ang-1, tie-2 and Ang-2 in rat brain.Oxidative stress and redox regulation on hippocampal-dependent cognitive functionsThe course of neurocognitive functioning in high-grade glioma patients.Quantitative Evaluation of Rabbit Brain Injury after Cerebral Hemisphere Radiation Exposure Using Generalized q-Sampling ImagingReduction of the radiation dose for intracranial germinoma: a prospective studyRadiation therapy effects on white matter fiber tracts of the limbic circuitAcute toxicity profile of craniospinal irradiation with intensity-modulated radiation therapy in children with medulloblastoma: A prospective analysis.Malignant cerebral glioma--I: Survival, disability, and morbidity after radiotherapy.Neuroanatomical target theory as a predictive model for radiation-induced cognitive decline.Progressive multiple cranial neuropathies presenting as a delayed complication of radiotherapy in infancy.Safety and efficacy of bevacizumab with hypofractionated stereotactic irradiation for recurrent malignant gliomas.Disease progression or pseudoprogression after concomitant radiochemotherapy treatment: pitfalls in neurooncology.Assessment of quality of life in patients treated for low-grade glioma: a preliminary report.Early-delayed radiation rhombencephalopathy.Imaging radiation-induced normal tissue injuryRadiation-induced microbleeds after cranial irradiation: evaluation by phase-sensitive magnetic resonance imaging with 3.0 teslaWhole brain radiation-induced cognitive impairment: pathophysiological mechanisms and therapeutic targetsNeural precursor cells and central nervous system radiation sensitivity.Radiation-induced reductions in neurogenesis are ameliorated in mice deficient in CuZnSOD or MnSOD.
P2860
Q28083668-67B59017-38B8-4188-8BF6-362043AD8D3FQ28344788-4F76829E-F59F-4947-9592-EEB4C35A1E8FQ28571522-159756AC-E751-4751-B668-0CAB2AFED6DEQ30418915-7AA76C53-DC64-4C06-BCEC-C68B4907551EQ30455442-FF2F975A-C31F-400A-BD91-01DCB2B682A0Q30495831-335BE25C-3413-4277-ABFD-8B29104F5C9EQ30502876-D58440FA-8158-4B3B-9A8C-420D27F90882Q30835167-BE801C5D-EC4E-4246-AD35-0A2EDA85AFC8Q30872661-6CCF1220-F38F-49FB-A8B4-A9686DF90561Q31148286-8C166DC5-C0A8-47AB-AB84-79EF505657FCQ33585529-FF5B123C-95E2-4057-A298-035380A0ABA7Q33629542-7976AB4C-E972-40EC-8204-85B5636AE076Q33636102-C95535A5-16DE-4EA9-9AF4-584C04568AF4Q33681977-09D26B83-6526-423C-844E-A53BD62FBD26Q33773407-F05EFFBC-7EF6-4705-A2D6-BB18565BEC3AQ34033710-4F32E25F-FDD9-4E3B-AF40-CCDD03E00FE9Q34108267-D894F025-59F3-4F0A-9C36-35CFA9923150Q34347439-683C7064-C09F-48BD-8455-208E13AD5871Q34506374-A1476550-FC40-4F2A-B1AE-139F518E2236Q35192360-EA915D06-A30C-471A-AA12-9DA74CA6329CQ35200326-0602D928-6336-4CA6-97F7-CE014619DD82Q35647943-27304F89-72A4-48A6-95A2-60894E7538F1Q35685206-CACA8197-F301-40CA-BFF5-F3DE9B2442B7Q35688326-B42C0743-6094-4757-A26D-52AF2053F1AAQ35689585-0CDAA017-1101-4835-BFE3-62586DA18B57Q36080096-91C07D85-1963-4040-9324-0D5F625FBFC0Q36218297-8F56CBE3-5CD5-4D16-BC05-03F5140E4ED3Q36310718-38C94565-11B9-449D-B6AC-5068ACA871E9Q36601793-883683FB-9F0A-454B-B106-30BF11DA0515Q36659730-346A299A-4E26-4F9C-8FB1-4F84F60C9178Q36721736-760FE644-DDAC-4EC5-8D22-5825204AFB22Q36860502-FB7E0A0C-E34E-48A9-BA4A-D548C427CD24Q36926781-D71E8A65-458B-4F77-BF4C-CB9A2BB7BEEFQ36961717-CDF88DE6-DADF-4D74-831D-688CEFCF9B6AQ37020024-6AEA308A-8BB3-4DF5-89D9-6EAFB85B7CEEQ37070104-DE47BBF8-2860-4D9A-8369-1E111C2443CBQ37140774-AC43F461-BC45-4346-8ADC-85ED2290B1B4Q37145380-47DD2781-B2E9-48C5-8470-E1A699FFF656Q37195860-99E8DF72-340A-492D-B47D-E9537B6DFF30Q37399854-B566E456-B451-473F-959C-B3AD7B3C1C40
P2860
description
1980 nî lūn-bûn
@nan
1980年の論文
@ja
1980年論文
@yue
1980年論文
@zh-hant
1980年論文
@zh-hk
1980年論文
@zh-mo
1980年論文
@zh-tw
1980年论文
@wuu
1980年论文
@zh
1980年论文
@zh-cn
name
Therapeutic irradiation and brain injury.
@en
type
label
Therapeutic irradiation and brain injury.
@en
prefLabel
Therapeutic irradiation and brain injury.
@en
P2093
P1476
Therapeutic irradiation and brain injury.
@en
P2093
P304
P407
P577
1980-09-01T00:00:00Z