Intensity-modulated x-ray (IMXT) versus proton (IMPT) therapy for theragnostic hypoxia-based dose painting
about
Towards multidimensional radiotherapy: key challenges for treatment individualisation.Theranostic Probes for Targeting Tumor Microenvironment: An Overview.A phantom model demonstration of tomotherapy dose painting delivery, including managed respiratory motion without motion management.The radiation response of cells from 9L gliosarcoma tumours is correlated with [F18]-EF5 uptakeMultimodality imaging of hypoxia in preclinical settings.Feasibility of dose painting using volumetric modulated arc optimization and delivery.Optimizing hypoxia detection and treatment strategies.The potential benefit of radiotherapy with protons in head and neck cancer with respect to normal tissue sparing: a systematic review of literatureProton beam therapy for locally advanced and unresectable (T4bN0M0) squamous cell carcinoma of the ethmoid sinus: A report of seven cases and a literature reviewDifferential hepatic avoidance radiation therapy: Proof of concept in hepatocellular carcinoma patientsIncrease in Tumor Control and Normal Tissue Complication Probabilities in Advanced Head-and-Neck Cancer for Dose-Escalated Intensity-Modulated Photon and Proton Therapy.Spatially resolved regression analysis of pre-treatment FDG, FLT and Cu-ATSM PET from post-treatment FDG PET: an exploratory study.Rapid emission angle selection for rotating-shield brachytherapy.Dynamic rotating-shield brachytherapy.On the importance of prompt oxygen changes for hypofractionated radiation treatments.A method for modeling laterally asymmetric proton beamlets resulting from collimation.Exploiting the tumor microenvironment for theranostic imaging.MRI of metastasis-permissive microenvironments.A 4D IMRT planning method using deformable image registration to improve normal tissue sparing with contemporary delivery techniquesHypoxia imaging and radiotherapy: bridging the resolution gap.Feasibility and robustness of dose painting by numbers in proton therapy with contour-driven plan optimization.Using spatial information about recurrence risk for robust optimization of dose-painting prescription functions.Charged-particle therapy in cancer: clinical uses and future perspectives.The energy margin strategy for reducing dose variation due to setup uncertainty in intensity modulated proton therapy (IMPT) delivered with distal edge tracking (DET)Technical Note: A treatment plan comparison between dynamic collimation and a fixed aperture during spot scanning proton therapy for brain treatmentAsymmetric dose-volume optimization with smoothness control for rotating-shield brachytherapy.Dose prescription and treatment planning based on FMISO-PET hypoxia.The energy margin strategy for reducing dose variation due to setup uncertainty in intensity modulated proton therapy (IMPT) delivered with distal edge tracking (DET).
P2860
Q27687218-A950701A-D265-4FE9-B033-EBA97924D50CQ30354655-B643E606-EC07-47DC-B032-D960DCFE72B2Q33921434-9E8AC6FF-5D8D-466E-992D-276A344064E4Q33949625-6889C07E-3525-4121-A754-707B72F75792Q34605956-DC316A56-8760-4DA1-A461-94385CE9D4F0Q34662439-9CCBC4E6-301C-47EC-977E-1B5CCCCAFC4DQ35195185-03D60FDF-49AB-41D7-A43E-F0BF9058F7F8Q35584522-69F5401C-E07B-46C3-B1D1-7955405DACC9Q35803988-D11DCC57-0176-4F5D-81CE-AA46C4A7EB6EQ36104455-6A55EEE7-09D2-48C0-A509-216ECDC83A77Q36300626-84F70628-E642-4BE5-BAB2-5924448146DFQ36374058-06DFB426-1D61-4366-97D2-4C1242ED0E36Q36852116-81F3DB90-CCF9-417C-9764-91CF939354FCQ37337105-0FA0F5D5-6875-4190-8041-C27F6D662C39Q37376797-4B693788-15C1-435D-A3CB-7E848C8FA924Q37713798-CB9B55F0-6FD1-43FC-B1AF-6F97810761C8Q37906480-B24296B7-6AF1-475F-8BCF-B1FBE812F9A0Q37951603-980DF520-8FF7-43E5-943B-DAAB274A2739Q38264367-8656B020-CFA2-41CB-BDCE-70768361EA1EQ38400842-E2112025-500B-430A-9ACF-34386161BD6EQ38415524-B8635D3C-7985-43E6-B91E-545B94378B16Q38432861-8F2CC10E-9A7F-4B40-9F61-247C65A5A2B3Q38746213-72D67C4C-5F51-4E34-9055-C46E0153E9F9Q40922827-60BF5989-A290-49D5-A948-31053E610EC5Q41823028-1909C47B-FAA0-4169-AA5F-55592BB62872Q51016649-40DC8935-661E-4CFD-BCDC-F02C16FC8645Q51536900-8C858F8D-F2AB-429B-BDF6-D17271C41061Q55524776-C6578163-7626-498F-8956-8C7913A3011C
P2860
Intensity-modulated x-ray (IMXT) versus proton (IMPT) therapy for theragnostic hypoxia-based dose painting
description
2008 nî lūn-bûn
@nan
2008年の論文
@ja
2008年論文
@yue
2008年論文
@zh-hant
2008年論文
@zh-hk
2008年論文
@zh-mo
2008年論文
@zh-tw
2008年论文
@wuu
2008年论文
@zh
2008年论文
@zh-cn
name
Intensity-modulated x-ray (IMX ...... ic hypoxia-based dose painting
@en
type
label
Intensity-modulated x-ray (IMX ...... ic hypoxia-based dose painting
@en
prefLabel
Intensity-modulated x-ray (IMX ...... ic hypoxia-based dose painting
@en
P2093
P2860
P356
P1476
Intensity-modulated x-ray (IMX ...... ic hypoxia-based dose painting
@en
P2093
Robert Jeraj
Ryan T Flynn
Stephen R Bowen
Søren M Bentzen
T Rockwell Mackie
P2860
P304
P356
10.1088/0031-9155/53/15/010
P577
2008-07-17T00:00:00Z