about
Gold nanoparticles for cancer radiotherapy: a reviewMatrix metalloproteinase-8 mediates the unfavorable systemic impact of local irradiation on pharmacokinetics of anti-cancer drug 5-FluorouracilPelvic irradiation modulates the pharmacokinetics of cisplatin in the plasma and lymphatic system.A generalized target theory and its applications.A Monte Carlo approach to the microdosimetric kinetic model to account for dose rate time structure effects in ion beam therapy with application in treatment planning simulations.Fast optimization and dose calculation in scanned ion beam therapy.Efficient Rejoining of DNA Double-Strand Breaks despite Increased Cell-Killing Effectiveness following Spread-Out Bragg Peak Carbon-Ion Irradiation.Targeted dose enhancement in radiotherapy for breast cancer using gold nanoparticles, part 1: A radiobiological model study.Physical and biological factors determining the effective proton range.A formulation of cell surviving fraction after radiation exposure.Biological consequences of nanoscale energy deposition near irradiated heavy atom nanoparticlesEnergy deposition clustering as a functional radiation quality descriptor for modeling relative biological effectiveness.A stochastic model of cell survival for high-Z nanoparticle radiotherapy.Radiobiological evaluation and correlation with the local effect model (LEM) of carbon ion radiation therapy and temozolomide in glioblastoma cell lines.Theoretical substantiation of biological efficacy enhancement for β-delayed particle decay (9)C beam: A Monte Carlo study in combination with analysis with the local effect model approach.Application of the local effect model to predict DNA double-strand break rejoining after photon and high-LET irradiation.Gold nanoparticle induced vasculature damage in radiotherapy: Comparing protons, megavoltage photons, and kilovoltage photons.Initial recombination in the track of heavy charged particles: numerical solution for air filled ionization chambers.Validation of the physical and RBE-weighted dose estimator based on PHITS coupled with a microdosimetric kinetic model for proton therapy.Radiosensitization of Prostate Cancers In Vitro and In Vivo to Erbium-filtered Orthovoltage X-rays Using Actively Targeted Gold Nanoparticles.Straightening Beta: Overdispersion of Lethal Chromosome Aberrations following Radiotherapeutic Doses Leads to Terminal Linearity in the Alpha-Beta Model.Technical Note: A simulation study on the feasibility of radiotherapy dose enhancement with calcium tungstate and hafnium oxide nano- and microparticles.Characterization of proton pencil beam scanning and passive beam using a high spatial resolution solid-state microdosimeter.Simulation of DSB yield for high LET radiation.Study of the Influence of NanOx Parameters.Calculation of the biological effects of ion beams based on the microscopic spatial damage distribution patternDNA damage interactions on both nanometer and micrometer scale determine overall cellular damage
P2860
Q28066413-29F53C09-37E3-4B8E-AF64-C73CD23577A6Q28478505-0D8A8D63-E807-4496-8911-59B3A8D98710Q35440203-35941678-9C14-40DD-A4A6-E2B32B8D6EB9Q36100088-A0EC876B-E4FD-4155-8665-985C42C1854CQ36263137-F368BF97-C78A-47E0-BFAB-CF014DAF274FQ38225709-6F45AA38-52AD-4B1D-BA2E-FEACBE32B24AQ38375807-6493BA91-34B8-4F0E-9804-1485100A5B64Q38942620-6E3DAD6F-5E81-44A6-927F-53DB0530A347Q39045197-90B34B42-2A39-4AB6-998B-E4233F1613BCQ39052239-74EF1C3D-64BC-477D-AA4D-3B042FBFCE02Q39119168-4AF177E2-9C38-49BA-A56C-BACEF414407CQ39138771-934A03E0-7E5D-497B-A876-B8EEF059E1B0Q39198645-F36314D2-EF82-4ACD-9AD0-E42785837A94Q39874006-24123D0E-B807-43B4-9DB0-FF707C5F3AE7Q39952200-0FD639C7-9F31-4B91-8312-43D8758C4ADFQ41068321-7DBD09DE-BBD3-4487-A12F-D73D2BA90681Q42130442-356BE5C7-6EC8-4BF8-B550-D3DE50297B12Q45144019-637DFC01-BA15-42FA-A438-4418074BCE01Q46271644-450F7285-1F52-4062-A56E-925CC8CA16FEQ47101624-793D5730-2BA8-4E29-85B0-C1819D9DC50EQ47193219-564BAFF6-12CB-43C9-AB1A-900A1044F095Q47664152-B9E80612-7D98-45D2-A21C-5AADB82B0DA3Q47893976-3DD91B85-0E76-41BA-844D-1A197B65AAE2Q50929932-3E5B31C3-D517-4C48-8B2C-2E08C0D99921Q52644996-FBC46DBA-5665-4A14-B27B-3F21A73A0C47Q57780648-8ED10D6B-607F-437F-8417-AF0FC83FFAF4Q58098978-694DE6CD-C85E-4168-A276-4714006C9672
P2860
description
2007 nî lūn-bûn
@nan
2007年の論文
@ja
2007年論文
@yue
2007年論文
@zh-hant
2007年論文
@zh-hk
2007年論文
@zh-mo
2007年論文
@zh-tw
2007年论文
@wuu
2007年论文
@zh
2007年论文
@zh-cn
name
Cluster effects within the local effect model.
@en
type
label
Cluster effects within the local effect model.
@en
prefLabel
Cluster effects within the local effect model.
@en
P356
P1433
P1476
Cluster effects within the local effect model.
@en
P2093
Michael Scholz
Thilo Elsässer
P304
P356
10.1667/RR0467.1
P577
2007-03-01T00:00:00Z