| human | Q5 |
| P227 | GND ID | 1120955866 |
| P269 | IdRef ID | 069532435 |
| P213 | ISNI | 0000000069213929 |
| P496 | ORCID iD | 0000-0002-9458-2202 |
| P1053 | ResearcherID | J-4451-2012 |
| P1153 | Scopus author ID | 8731672900 |
| P214 | VIAF ID | 321148149505696930004 |
| P10832 | WorldCat Entities ID | E39PBJy8kXvQxgt9y7YVP9cByd |
| P69 | educated at | Institute of Cancer Research | Q6039999 |
| P108 | employer | Massachusetts General Hospital | Q126412 |
| Heidelberg University | Q151510 | ||
| University of Göttingen | Q152838 | ||
| German Cancer Research Center | Q449325 | ||
| Institute of Cancer Research | Q6039999 | ||
| P734 | family name | Seco | Q37060110 |
| Seco | Q37060110 | ||
| Seco | Q37060110 | ||
| P735 | given name | João | Q16916120 |
| João | Q16916120 | ||
| P106 | occupation | researcher | Q1650915 |
| P21 | sex or gender | male | Q6581097 |
| Q40292839 | 3D delivered dose assessment using a 4DCT-based motion model. |
| Q40195002 | 4D cone beam CT-based dose assessment for SBRT lung cancer treatment. |
| Q47286330 | A low Z linac and flat panel imager: comparison with the conventional imaging approach. |
| Q37008771 | A mass-conserving 4D XCAT phantom for dose calculation and accumulation |
| Q50553745 | A maximum likelihood method for high resolution proton radiography/proton CT. |
| Q84580947 | A modification of flattening filter free linac for IMRT |
| Q51943239 | A quantitative study of IMRT delivery effects in commercial planning systems for the case of oesophagus and prostate tumours. |
| Q51830360 | A simulation study on proton computed tomography (CT) stopping power accuracy using dual energy CT scans as benchmark. |
| Q48014784 | A theoretical framework to predict the most likely ion path in particle imaging |
| Q89390674 | Advanced Multimodal Methods for Cranial Pseudo-CT Generation Validated by IMRT and VMAT Radiation Therapy Plans |
| Q57118020 | Amorphous silicon EPID calibration for dosimetric applications: comparison of a method based on Monte Carlo prediction of response with existing techniques |
| Q41528938 | An Overview of Lipid Droplets in Cancer and Cancer Stem Cells |
| Q51909385 | An investigation of dose calculation accuracy in intensity-modulated radiotherapy of sites in the head & neck. |
| Q52043154 | An optimization algorithm that incorporates IMRT delivery constraints. |
| Q53608234 | Analysis of stochastic noise in intensity-modulated beams. |
| Q77425552 | Analysis of the effects of the delivery technique on an IMRT plan: comparison for multiple static field, dynamic and NOMOS MIMiC collimation |
| Q51946325 | Assessing the effect of electron density in photon dose calculations. |
| Q38385003 | Automated Monte Carlo Simulation of Proton Therapy Treatment Plans |
| Q38450001 | Breathing interplay effects during proton beam scanning: simulation and statistical analysis. |
| Q47891985 | CT metal artifact reduction method correcting for beam hardening and missing projections |
| Q50145371 | CeBr3 scintillators for 4 He prompt gamma spectroscopy: results from a Monte-Carlo optimization study. |
| Q85639607 | Characterizing the modulation transfer function (MTF) of proton/carbon radiography using Monte Carlo simulations |
| Q42603934 | Combinational use of conformal and intensity-modulated beams in radiotherapy planning |
| Q52936338 | Combined influence of CT random noise and HU-RSP calibration curve nonlinearities on proton range systematic errors. |
| Q46288941 | Comparative study of a low-Z cone-beam computed tomography system. |
| Q36038142 | Comparison of out-of-field photon doses in 6 MV IMRT and neutron doses in proton therapy for adult and pediatric patients |
| Q101578730 | Comparison of the suitability of CBCT- and MR-based synthetic CTs for daily adaptive proton therapy in head and neck patients |
| Q51048905 | Contrast-enhanced proton radiography for patient set-up by using x-ray CT prior knowledge. |
| Q49064242 | Conversion of CT numbers into tissue parameters for Monte Carlo dose calculations: a multi-centre study. |
| Q50722692 | Deriving effective atomic numbers from DECT based on a parameterization of the ratio of high and low linear attenuation coefficients. |
| Q42424650 | Design and testing of a simulation framework for dosimetric motion studies integrating an anthropomorphic computational phantom into four-dimensional Monte Carlo. |
| Q92913814 | Design optimization of a pixel-based range telescope for proton computed tomography |
| Q85348832 | Developing a phenomenological model of the proton trajectory within a heterogeneous medium required for proton imaging |
| Q49082169 | Dose assessment for the fetus considering scattered and secondary radiation from photon and proton therapy when treating a brain tumor of the mother |
| Q33274841 | Dosimetric accuracy of proton therapy for chordoma patients with titanium implants |
| Q49019132 | Dosimetric assessment of a novel metal artifact reduction method in CT images |
| Q42077856 | Dosimetric impact of motion in free-breathing and gated lung radiotherapy: a 4D Monte Carlo study of intrafraction and interfraction effects |
| Q51831020 | Dosimetry robustness with stochastic optimization. |
| Q36539021 | Effects of Hounsfield number conversion on CT based proton Monte Carlo dose calculations |
| Q42591213 | Effects of organ motion on IMRT treatments with segments of few monitor units |
| Q79782302 | Electron dosimetry of angular fields |
| Q40140455 | Energy- and time-resolved detection of prompt gamma-rays for proton range verification |
| Q53763062 | Erratum: "Assessing the effect of electron density in photon dose calculations". |
| Q55004145 | Evaluating Intensity Modulated Proton Therapy Relative to Passive Scattering Proton Therapy for Increased Vertebral Column Sparing in Craniospinal Irradiation in Growing Pediatric Patients. |
| Q51123962 | Evaluation of two methods of predicting MLC leaf positions using EPID measurements. |
| Q47636536 | Extension of the Fermi-Eyges most-likely path in heterogeneous medium with prior knowledge information. |
| Q35786321 | Extension of the NCAT phantom for the investigation of intra-fraction respiratory motion in IMRT using 4D Monte Carlo |
| Q46190483 | Feasibility study of in vivo MRI based dosimetric verification of proton end-of-range for liver cancer patients. |
| Q34157603 | Golden beam data for proton pencil-beam scanning |
| Q48950339 | Head-and-neck IMRT treatments assessed with a Monte Carlo dose calculation engine. |
| Q88570731 | Helium CT: Monte Carlo simulation results for an ideal source and detector with comparison to proton CT |
| Q38968398 | Imaging in particle therapy: State of the art and future perspective |
| Q92491477 | Improving single-event proton CT by removing nuclear interaction events within the energy/range detector |
| Q47770919 | Incorporation of a combinatorial geometry package and improved scoring capabilities in the EGSnrc Monte Carlo Code system. |
| Q35001824 | Increasing maximum tumor dose to manage range uncertainties in IMPT treatment planning. |
| Q51568310 | Inter-comparison of relative stopping power estimation models for proton therapy. |
| Q92159178 | Inter-patient variations of radiation-induced normal-tissue changes in Gd-EOB-DTPA-enhanced hepatic MRI scans during fractionated proton therapy |
| Q45122554 | Ion radiography as a tool for patient set-up and image guided particle therapy: a Monte Carlo study. |
| Q112701448 | Iron and copper complexes with antioxidant activity as inhibitors of the metastatic potential of glioma cells |
| Q48798670 | Kilovoltage energy imaging with a radiotherapy linac with a continuously variable energy range. |
| Q88094528 | MO-A-213AB-06: Validation of Nuclear Reaction Models to Simulate Proton Therapy Range Verification Using Prompt Gamma-Rays |
| Q80004103 | Monte Carlo and Lambertian light guide models of the light output from scintillation crystals at megavoltage energies |
| Q47302492 | Monte Carlo modelling of a-Si EPID response: the effect of spectral variations with field size and position |
| Q35017607 | Motion management with phase-adapted 4D-optimization. |
| Q36467894 | Numerical solutions of the γ-index in two and three dimensions |
| Q47785245 | Pre-treatment patient-specific stopping power by combining list-mode proton radiography and x-ray CT. |
| Q50683959 | Proof of principle study of the use of a CMOS active pixel sensor for proton radiography. |
| Q35965653 | Proton SBRT for medically inoperable stage I NSCLC. |
| Q87209492 | Proton arc reduces range uncertainty effects and improves conformality compared with photon volumetric modulated arc therapy in stereotactic body radiation therapy for non-small cell lung cancer |
| Q43456159 | Proton radiography in three dimensions: a proof of principle of a new technique. |
| Q88905749 | Proton range shift analysis on brain pseudo-CT generated from T1 and T2 MR |
| Q53399097 | Proton range verification through prompt gamma-ray spectroscopy. |
| Q85224368 | Radiation-induced changes in hepatocyte-specific Gd-EOB-DTPA enhanced MRI: potential mechanism |
| Q50977268 | Range verification of passively scattered proton beams using prompt gamma-ray detection. |
| Q92008113 | Results from the experimental evaluation of CeBr 3 scintillators for 4 He prompt gamma spectroscopy |
| Q34439088 | Review on the characteristics of radiation detectors for dosimetry and imaging |
| Q38778341 | SU-E-I-111: Evaluation of the Analytical Scattering Models of 1) Lynch-Dahl 2) Highland and 3) Rossi for Proton Beams and Comparison with GEANT4 Monte Carlo Simulations as a Prerequisite for Proton Radiography Applications for Patients |
| Q88094772 | SU-E-I-97: Characterizing the Modulation Transfer Function (MTF) of Proton Radiography |
| Q89437156 | SU-F-J-204: Carbon Digitally Reconstructed Radiography (CDRR): A GPU Based Tool for Fast and Versatile Carbonimaging Simulation |
| Q41533915 | Scan path optimization with/without clustering for active beam delivery in charged particle therapy |
| Q53082416 | Sensitivity study of proton radiography and comparison with kV and MV x-ray imaging using GEANT4 Monte Carlo simulations. |
| Q30746742 | Simulation of dosimetric consequences of 4D-CT-based motion margin estimation for proton radiotherapy using patient tumor motion data |
| Q47302723 | Simulation of prompt gamma-ray emission during proton radiotherapy. |
| Q30665118 | Simulations using patient data to evaluate systematic errors that may occur in 4D treatment planning: a proof of concept study |
| Q54797331 | TU-FG-BRB-04: A New Optimization Method for Pre-Treatment Patient-Specific Stopping-Power by Combining Proton Radiography and X-Ray CT. |
| Q46818044 | The image quality of ion computed tomography at clinical imaging dose levels. |
| Q51126746 | The impact of low-Z and high-Z metal implants in IMRT: a Monte Carlo study of dose inaccuracies in commercial dose algorithms. |
| Q31060355 | The susceptibility of IMRT dose distributions to intrafraction organ motion: an investigation into smoothing filters derived from four dimensional computed tomography data |
| Q30827716 | Tissue decomposition from dual energy CT data for MC based dose calculation in particle therapy |
| Q39699179 | Treatment of non-small cell lung cancer patients with proton beam-based stereotactic body radiotherapy: dosimetric comparison with photon plans highlights importance of range uncertainty |
| Q51624893 | Use of a realistic breathing lung phantom to evaluate dose delivery errors. |
| Q48786633 | WE-G-BRB-06: Real-Time Radiation Field Tracking Using Long Scintillating Fibers. |
Search more.