scholarly article | Q13442814 |
P50 | author | Ryan Foster | Q42806590 |
P2093 | author name string | William H McBride | |
James W Sayre | |||
Albert J van der Kogel | |||
Timothy D Solberg | |||
Paul M Medin | |||
P2860 | cites work | Image-guided hypo-fractionated stereotactic radiosurgery to spinal lesions | Q33271053 |
Accuracy of cranial coplanar beam therapy using an oblique, stereoscopic x-ray image guidance system | Q33367690 | ||
The pig as a model for the study of radiation effects on the lung | Q33921083 | ||
Mechanisms of radiation injury to the central nervous system: implications for neuroprotection | Q35912162 | ||
The radiation response of the cervical spinal cord of the pig: effects of changing the irradiated volume | Q36730336 | ||
Delayed radiation-induced myelopathy after spinal radiosurgery | Q37375920 | ||
Radiation dose-volume effects in the spinal cord. | Q37695551 | ||
Image-guided and intensity-modulated radiosurgery for patients with spinal metastasis | Q39396345 | ||
Techniques for precision irradiation of the lateral half of the rat cervical spinal cord using 150 MeV protons [corrected]. | Q39586486 | ||
Local recruitment of remyelinating cells in the repair of demyelination in the central nervous system | Q41066214 | ||
Spinal cord tolerance for stereotactic body radiotherapy | Q43736654 | ||
The effect of single doses of radiation on mouse spinal cord | Q43821256 | ||
Radiation myelopathy in primates treated with conventional fractionation | Q44012494 | ||
Investigations of a minimally invasive method for treatment of spinal malignancies with LINAC stereotactic radiation therapy: accuracy and animal studies | Q46178119 | ||
Image-guided radiosurgery in the treatment of spinal metastases | Q46599552 | ||
The influence of field size on the late tolerance of the rat spinal cord to single doses of X rays | Q47189673 | ||
Quality assurance of immobilization and target localization systems for frameless stereotactic cranial and extracranial hypofractionated radiotherapy | Q47684694 | ||
Radiosurgery for spinal metastases: clinical experience in 500 cases from a single institution | Q48921275 | ||
Quality assurance of a system for improved target localization and patient set-up that combines real-time infrared tracking and stereoscopic X-ray imaging. | Q50764978 | ||
A technique of intensity-modulated radiosurgery (IMRS) for spinal tumors. | Q53662771 | ||
The radiosensitivity of the guinea-pig spinal cord to X-rays: the effect of retreatment at one year and the effect of age at the time of irradiation. | Q53919046 | ||
Unexpected changes of rat cervical spinal cord tolerance caused by inhomogeneous dose distributions | Q57648623 | ||
Radiation tolerance of the rat spinal cord: time-dose relationships | Q67543670 | ||
The relative biological effectiveness of fractionated doses of fast neutrons (42 MeVd----Be) for normal tissues in the pig. IV. Effects on renal function | Q68002997 | ||
Vascular lesions following radiation | Q68422141 | ||
The relative biological effectiveness of fractionated doses of fast neutrons (42 MeVd----Be) for normal tissues in the pig. II. Late effects on cutaneous and subcutaneous tissues | Q68606321 | ||
Repair kinetics as a determining factor for late tolerance of central nervous system to low dose rate irradiation | Q69620552 | ||
A new model of radiation-induced myelopathy: a comparison of the response of mature and immature pigs | Q72081137 | ||
Migration and myelination | Q73789109 | ||
Frame based stereotactic spinal radiosurgery: experience from the first 19 patients treated | Q73894057 | ||
Tolerance of rat spinal cord to continuous interstitial irradiation | Q74256673 | ||
Dose-volume effects in the rat cervical spinal cord after proton irradiation | Q77451520 | ||
Partial volume tolerance of the spinal cord and complications of single-dose radiosurgery | Q79432042 | ||
High-dose, single-fraction image-guided intensity-modulated radiotherapy for metastatic spinal lesions | Q80594035 | ||
Regional differences in radiosensitivity across the rat cervical spinal cord | Q81312831 | ||
P433 | issue | 1 | |
P407 | language of work or name | English | Q1860 |
P304 | page(s) | 226-232 | |
P577 | publication date | 2010-10-08 | |
P1433 | published in | International Journal of Radiation Oncology Biology Physics | Q2296252 |
P1476 | title | Spinal cord tolerance to single-fraction partial-volume irradiation: a swine model | |
P478 | volume | 79 |
Q39329017 | Clinical applicability of biologically effective dose calculation for spinal cord in fractionated spine stereotactic body radiation therapy |
Q40978768 | Dynamic MRI follow-up of radiation encephalopathy in the temporal lobe following nasopharyngeal carcinoma radiotherapy |
Q47326988 | Estimating normal tissue toxicity in radiosurgery of the CNS: application and limitations of QUANTEC. |
Q51469997 | Impact of dose hot spots on spinal cord tolerance following stereotactic body radiotherapy: a generalized biological effective dose analysis. |
Q89109046 | Mitigation of radiation myelopathy and reduction of microglial infiltration by Ramipril, ACE inhibitor |
Q33857061 | Molecular imaging detects impairment in the retrograde axonal transport mechanism after radiation-induced spinal cord injury |
Q30427191 | Nonthermal ablation with microbubble-enhanced focused ultrasound close to the optic tract without affecting nerve function |
Q37343868 | Paralysis following stereotactic spinal irradiation in pigs suggests a tolerance constraint for single-session irradiation of the spinal nerve |
Q30993358 | Radiation dose-fractionation effects in spinal cord: comparison of animal and human data |
Q34781650 | Spinal cord tolerance in the age of spinal radiosurgery: lessons from preclinical studies |
Q35856913 | Spinal cord tolerance to reirradiation with single-fraction radiosurgery: a swine model |
Q36478926 | Spinal cord tolerance to single-session uniform irradiation in pigs: implications for a dose-volume effect |
Q28079996 | Stereotactic Body Radiotherapy for Recurrent Unresectable Head and Neck Cancers |
Q38234464 | The role of stereotactic body radiotherapy and stereotactic radiosurgery in the re-irradiation of metastatic spinal tumors |
Search more.