| scholarly article | Q13442814 |
| P356 | DOI | 10.1097/00006123-200108000-00026 |
| P698 | PubMed publication ID | 11504117 |
| P50 | author | Neil F. Kassell | Q110875898 |
| P2093 | author name string | Lee KS | |
| Lopes MB | |||
| Steiner L | |||
| Kamiryo T | |||
| P2860 | cites work | Blood-brain barrier disturbance following subarachnoid hemorrhage in rabbits | Q30456677 |
| The response of the microvascular system to radiation: a review | Q30457944 | ||
| A stereotactic device for experimental gamma knife radiosurgery in rats. A technical note | Q30466376 | ||
| Histological changes in the normal rat brain after gamma irradiation | Q30468800 | ||
| Functional radiosurgery | Q31931500 | ||
| Fine structural localization of a blood-brain barrier to exogenous peroxidase | Q34054533 | ||
| Gammathalamotomy in intractable pain | Q39573677 | ||
| Delayed radiation necrosis of the brain | Q42018991 | ||
| Development of blood vessel-related radiation damage in the fimbria of the central nervous system | Q43971359 | ||
| Accuracy of an experimental stereotactic system for MRI-based gamma knife irradiation in the rat. | Q45101205 | ||
| The late effects of radiation on the blood brain barrier | Q48280856 | ||
| Radiobiology of radiosurgery: Part I. The normal rat brain model | Q48448264 | ||
| Stereotactic radiosurgery for arteriovenous malformations of the brain | Q48644320 | ||
| DELAYED EFFECTS OF RADIATION ON THE HUMAN CENTRAL NERVOUS SYSTEM; "EARLY" AND "LATE" DELAYED REACTIONS. | Q51269902 | ||
| Delayed radionecrosis of the brain following therapeutic x-radiation of the pituitary. | Q51303698 | ||
| P433 | issue | 2 | |
| P407 | language of work or name | English | Q1860 |
| P921 | main subject | neurosurgery | Q188449 |
| microvessel | Q6840468 | ||
| P304 | page(s) | 409-14; discussion 414-5 | |
| P577 | publication date | 2001-08-01 | |
| P1433 | published in | Neurosurgery | Q7002693 |
| P1476 | title | Radiosurgery-induced microvascular alterations precede necrosis of the brain neuropil | |
| P478 | volume | 49 |
| Q42114401 | A combination of radiosurgery and soluble tissue factor enhances vascular targeting for experimental glioblastoma |
| Q36893250 | A prospective trial of dynamic contrast-enhanced MRI perfusion and fluorine-18 FDG PET-CT in differentiating brain tumor progression from radiation injury after cranial irradiation |
| Q42593398 | Acquired-resistance of bevacizumab treatment for radiation brain necrosis: a case report |
| Q42125166 | Alterations in the expression of vascular endothelial growth factor in the rat brain following gamma knife surgery |
| Q35535101 | Application of radiosurgical techniques to produce a primate model of brain lesions. |
| Q61797977 | Bevacizumab treatment for radiation brain necrosis: mechanism, efficacy and issues |
| Q35052739 | Carbamylated erythropoietin reduces radiosurgically-induced brain injury |
| Q42703790 | Cerebral microvascular rarefaction induced by whole brain radiation is reversible by systemic hypoxia in mice |
| Q37212449 | Comparison of the effectiveness of MRI perfusion and fluorine-18 FDG PET-CT for differentiating radiation injury from viable brain tumor: a preliminary retrospective analysis with pathologic correlation in all patients |
| Q38074638 | Differentiating tumor recurrence from treatment necrosis: a review of neuro-oncologic imaging strategies |
| Q46107545 | Distinguishing recurrent intra-axial metastatic tumor from radiation necrosis following gamma knife radiosurgery using dynamic susceptibility-weighted contrast-enhanced perfusion MR imaging |
| Q36324184 | Gamma knife radiosurgery for pituitary adenomas |
| Q33862844 | Imaging changes following stereotactic radiosurgery for metastatic intracranial tumors: differentiating pseudoprogression from tumor progression and its effect on clinical practice |
| Q35627088 | Leukoencephalopathy and disseminated necrotizing leukoencephalopathy following intrathecal methotrexate chemotherapy and radiation therapy for central nerve system lymphoma or leukemia |
| Q55710120 | Mesenchymal Stem Cells Attenuate Radiation-Induced Brain Injury by Inhibiting Microglia Pyroptosis. |
| Q91280474 | Neurologic complications of melanoma |
| Q33738599 | Perfusion CT Imaging of Brain Tumors: An Overview |
| Q36902053 | Perfusion and Volume Response of Canine Brain Tumors to Stereotactic Radiosurgery and Radiotherapy |
| Q55463393 | Permeability estimates in histopathology-proved treatment-induced necrosis using perfusion CT: can these add to other perfusion parameters in differentiating from recurrent/progressive tumors? |
| Q55466295 | Radical resection of focal brainstem gliomas: is it worth doing? |
| Q30423111 | Radiosurgery for epilepsy: clinical experience and potential antiepileptic mechanisms |
| Q30936310 | Results of contemporary surgical management of radiation necrosis using frameless stereotaxis and intraoperative magnetic resonance imaging |
| Q49356117 | Risk for fatal pulmonary hemorrhage does not appear to be increased following dose escalation using stereotactic body radiotherapy (SBRT) in locally advanced non-small cell lung cancer (NSCLC). |
| Q34201082 | Systemic influences contribute to prolonged microvascular rarefaction after brain irradiation: a role for endothelial progenitor cells |
| Q37697610 | Treatment induced necrosis versus recurrent/progressing brain tumor: going beyond the boundaries of conventional morphologic imaging. |
| Q34141823 | Whole brain radiation-induced impairments in learning and memory are time-sensitive and reversible by systemic hypoxia |
| Q38150963 | Whole brain radiation-induced vascular cognitive impairment: mechanisms and implications |
Search more.