Initial clinical experience with frameless stereotactic radiosurgery: analysis of accuracy and feasibility.
about
Radiosurgery in the treatment of spinal metastases: tumor control, survival, and quality of life after helical tomotherapy.Initial clinical experience with frameless optically guided stereotactic radiosurgery/radiotherapy in pediatric patients.Combined diffusion and perfusion MR imaging as biomarkers of prognosis in immunocompetent patients with primary central nervous system lymphoma.Migration from full-head mask to "open-face" mask for immobilization of patients with head and neck cancer.Frameless linac-based stereotactic radiosurgery (SRS) for brain metastases: analysis of patient repositioning using a mask fixation system and clinical outcomesDiffusion-weighted MR imaging derived apparent diffusion coefficient is predictive of clinical outcome in primary central nervous system lymphomaContinuous localization technologies for radiotherapy delivery: Report of the American Society for Radiation Oncology Emerging Technology Committee.Quantitative evaluation of patient setup uncertainty of stereotactic radiotherapy with the frameless 6D ExacTrac system using statistical modeling.Dosimetric effects of positioning shifts using 6D-frameless stereotactic Brainlab system in hypofractionated intracranial radiotherapy.Intracranial stereotactic positioning systems: Report of the American Association of Physicists in Medicine Radiation Therapy Committee Task Group no. 68.Clinical experience with two frameless stereotactic radiosurgery (fSRS) systems using optical surface imaging for motion monitoring.Intracranial application of IMRT based radiosurgery to treat multiple or large irregular lesions and verification of infra-red frameless localization system.Heterogeneity correction for intensity-modulated frameless SRS in pituitary and cavernous sinus tumors: a retrospective study.Six degrees of freedom CBCT-based positioning for intracranial targets treated with frameless stereotactic radiosurgery.Staged stereotactic irradiation for acoustic neuroma.Radiosurgery technology development and use.Treatment accuracy without rotational setup corrections in intracranial SRT.Optically guided linac radiosurgery with a Leksell head frame as an adjunct to Gamma Knife treatment.Motion monitoring for cranial frameless stereotactic radiosurgery using video-based three-dimensional optical surface imaging.Real-time 3D-surface-guided head refixation useful for fractionated stereotactic radiotherapy.An approach for online evaluations of dose consequences caused by small rotational setup errors in intracranial stereotactic radiation therapy.A phantom study on the positioning accuracy of the Novalis Body system.A phantom study of the immobilization and the indications for using virtual isocenter in stereoscopic X-ray image guidance system referring to position localizer in frameless radiosurgery.Simulation of intrafraction motion and overall geometric accuracy of a frameless intracranial radiosurgery process.Performance and characteristics of an IR localizing system for radiation therapy.Rapid fabrication of custom patient biopsy guides.Design and study of ultrasound-based automatic patient movement monitoring device for quantifying the intrafraction motion during teletherapy treatment.Evaluation of patient setup uncertainty of optical guided frameless system for intracranial stereotactic radiosurgery.Optically Guided Stereotactic Radiotherapy for Lacrimal Sac Tumors: A Report on Two Cases
P2860
Q30449534-20A40CF7-9593-456F-9C45-30354AC57C92Q30489185-C332277C-6C74-4834-BCB0-042A132FFF95Q34050020-B77FB4F1-B263-4A69-8CB2-BF25D039EA18Q34987423-804F0459-4C73-4B24-A5C2-D9B732E51E30Q35658332-BAA0AC74-BDD8-4BB2-9FA0-0ED92097CAE2Q36037594-4CE48934-AE37-402A-A498-E3493785D033Q38156772-2A5F0BD5-0C15-49EE-9E4C-35FC533B042BQ38905780-1B56457E-54CA-481E-815F-D28EC11EC5C9Q39984739-C9F57015-1782-4883-9FD0-0DCC0A33D4C9Q40394456-BA30720C-8B41-4099-8A39-1E167F06E05BQ41178449-CD4C2A66-9302-429C-9430-6C5F4A22F65FQ41825582-B5930745-6E66-497C-9329-029297BD98CEQ43247098-D29CFF3D-D311-4550-98E8-C621797B9335Q45407866-314D6A10-2A93-47EF-A5AE-6C5AB93365EEQ46443605-7395BB0C-051B-42D9-BB52-0C7C1A3867FAQ47120762-51CCCBAA-E9CC-48D4-979E-7C36A44D5F23Q48604872-DF16A254-041E-417E-8D13-99973CB00EE6Q48914263-F563A44A-30D9-42D3-B37B-81BA60DC139AQ48939289-1E85E7FC-E78C-4EF1-9B58-201735E32DC9Q51248615-971E616E-B765-4420-813D-824B8B271936Q51505985-E284E137-7018-45E7-8797-605D57D3D9C2Q51724459-5D6263A7-4F4C-46DA-94FD-E35EE8B242EBQ53102591-A355C063-3937-4ED1-9469-61A0389728A7Q55014921-F8712611-D24C-41BA-8E47-929F92B68786Q55024841-CA72FC12-8C16-460C-A43F-6D64112184DAQ55025159-7E3367CB-18B7-4DC4-870D-1EF4B654AAC2Q55084069-D070BFE1-FBA5-4CC4-8B80-7690B16C3507Q55086740-5BFDEA49-1767-447F-9ADE-96D1492AA5D5Q57598671-9E01DAE8-662E-4B65-BB1D-350A9CA16F51
P2860
Initial clinical experience with frameless stereotactic radiosurgery: analysis of accuracy and feasibility.
description
2001 nî lūn-bûn
@nan
2001年の論文
@ja
2001年学术文章
@wuu
2001年学术文章
@zh
2001年学术文章
@zh-cn
2001年学术文章
@zh-hans
2001年学术文章
@zh-my
2001年学术文章
@zh-sg
2001年學術文章
@yue
2001年學術文章
@zh-hant
name
Initial clinical experience wi ...... s of accuracy and feasibility.
@en
Initial clinical experience wi ...... s of accuracy and feasibility.
@nl
type
label
Initial clinical experience wi ...... s of accuracy and feasibility.
@en
Initial clinical experience wi ...... s of accuracy and feasibility.
@nl
prefLabel
Initial clinical experience wi ...... s of accuracy and feasibility.
@en
Initial clinical experience wi ...... s of accuracy and feasibility.
@nl
P2093
P1476
Initial clinical experience wi ...... is of accuracy and feasibility
@en
P2093
V Traynelis
W A Friedman
P304
P356
10.1016/S0360-3016(01)01756-4
P407
P577
2001-11-01T00:00:00Z