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Journal of Applied Clinical Medical Physics, ISSN 1526-9914, 03/2013, Volume 14, Issue 2, pp. 90 - 101
Journal Article
Journal Article
Medical Physics, ISSN 0094-2405, 05/2014, Volume 41, Issue 5, pp. 052304 - n/a
Purpose : Accurate determination of tumor position is crucial for successful application of motion compensated radiotherapy in lung cancer patients. This study... 
biomedical MRI | interoperator variability | cine‐MR images | motion management | template matching | Tissues | Medical image contrast | lung cancer | Digital computing or data processing equipment or methods, specially adapted for specific applications | Involving electronic [emr] or nuclear [nmr] magnetic resonance, e.g. magnetic resonance imaging | Clinical applications | Dosimetry | tumours | medical image processing | Medical imaging | Radiation treatment | Analysis of motion | Biological material, e.g. blood, urine; Haemocytometers | image matching | image motion analysis | Image analysis | Lungs | Magnetic resonance imaging | Image data processing or generation, in general | radiation therapy | Medical magnetic resonance imaging | Cancer | cine-MR images | GATED RADIOTHERAPY | 4-DIMENSIONAL COMPUTED-TOMOGRAPHY | FEASIBILITY | TREATMENT COUCH | REPRODUCIBILITY | IMPLANTED FIDUCIAL MARKERS | RESPIRATION | TRACKING | DYNAMIC MRI | RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING | ORGAN MOTION | Carcinoma, Non-Small-Cell Lung - pathology | Carcinoma, Non-Small-Cell Lung - radiotherapy | Motion | Reproducibility of Results | Humans | Middle Aged | Lung Neoplasms - radiotherapy | Magnetic Resonance Imaging - methods | Lung Neoplasms - pathology | Male | Algorithms | Radiotherapy, Image-Guided - methods | Aged, 80 and over | Female | Aged | Pattern Recognition, Automated - methods | Magnetic Resonance Physics
Journal Article
Medical Physics, ISSN 0094-2405, 09/2006, Volume 33, Issue 9, pp. 3348 - 3358
Journal Article
Medical Physics, ISSN 0094-2405, 05/2013, Volume 40, Issue 5, pp. 051722 - n/a
Purpose: Upgrade and benchmarking of a research 4D treatment planning system (4DTPS) suitable for realistic patient treatment planning and treatment... 
Segmentation | dosimetry | image registration | Optimization | phantoms | Digital computing or data processing equipment or methods, specially adapted for specific applications | treatment planning | organ motion | Boolean functions | ion beam | Computed tomography | image segmentation | Registration | Kinematics | Computerised tomographs | medical image processing | Medical treatment planning | Cell processes | Analysis of motion | Ionization chambers | Dose‐volume analysis | image motion analysis | Ion beams | Radiography | computerised tomography | ionisation chambers | four‐dimensional | Image data processing or generation, in general | cellular transport | radiation therapy | radiotherapy | Dosimetry/exposure assessment | Cancer | four-dimensional | DEFORMABLE REGISTRATION | 4-DIMENSIONAL COMPUTED-TOMOGRAPHY | PROTON-BEAM | RESPIRATORY MOTION | RADIATION-THERAPY | TREATMENT PLANS | PARTICLE THERAPY | TUMOR MOTION | RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING | IMAGE REGISTRATION | Radiotherapy Dosage | Radiotherapy Planning, Computer-Assisted - methods | Humans | Lung Neoplasms - radiotherapy | Benchmarking | Lung Neoplasms - diagnostic imaging | Radiometry | Phantoms, Imaging | Four-Dimensional Computed Tomography | PATIENTS | MONITORING | RADIATION PROTECTION AND DOSIMETRY | ION BEAMS | SIMULATION | 60 APPLIED LIFE SCIENCES | COMPUTERIZED TOMOGRAPHY | PLANNING | IRRADIATION | IMAGE PROCESSING | FILMS | DOSES | IMAGES | PHANTOMS | CARBON IONS | RADIOTHERAPY | IONIZATION CHAMBERS
Journal Article
Medical Physics, ISSN 0094-2405, 06/2010, Volume 37, Issue 6, pp. 2855 - 2861
Journal Article
Medical Physics, ISSN 0094-2405, 08/2015, Volume 42, Issue 8, pp. 4484 - 4496
Purpose: Accurate visualization of lung motion is important in many clinical applications, such as radiotherapy of lung cancer. Advancement in imaging... 
biomedical MRI | image fusion | image registration | pneumodynamics | Finite element methods | Tissues | Finite element calculations | Pneumodyamics, respiration | Digital computing or data processing equipment or methods, specially adapted for specific applications | lung cancer | Computed tomography | Involving electronic [emr] or nuclear [nmr] magnetic resonance, e.g. magnetic resonance imaging | feature extraction | Registration | Three dimensional image processing | tumours | Computerised tomographs | image resolution | medical image processing | Analysis of motion | Biological material, e.g. blood, urine; Haemocytometers | finite element analysis | DIR | MRI: anatomic, functional, spectral, diffusion | Field emission microscopy | image motion analysis | FEM | lung | computerised tomography | Lungs | Magnetic resonance imaging | Image data processing or generation, in general | radiation therapy | radiotherapy | cancer | Medical image spatial resolution | Spatial resolution | 4-DIMENSIONAL COMPUTED-TOMOGRAPHY | CONFORMAL RADIATION-THERAPY | MRI | MODEL | CANCER | TARGET VOLUME | 4D CT | RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING | DEFORMABLE IMAGE REGISTRATION | Motion | Lung - pathology | Datasets as Topic | Imaging, Three-Dimensional - methods | Magnetic Resonance Imaging - methods | Tomography, X-Ray Computed - methods | Lung Neoplasms - pathology | Lung - diagnostic imaging | Feasibility Studies | Computer Simulation | Multimodal Imaging - methods | Finite Element Analysis | Lung Neoplasms - diagnostic imaging | Respiration | Life Sciences | Bioengineering | Medical Imaging | Imaging | Computer Science | PATIENTS | ERRORS | SPATIAL RESOLUTION | NEOPLASMS | BIOMEDICAL RADIOGRAPHY | RADIATION PROTECTION AND DOSIMETRY | LUNGS | SIMULATION | 60 APPLIED LIFE SCIENCES | COMPUTERIZED TOMOGRAPHY | DATASETS | FINITE ELEMENT METHOD | NMR IMAGING | IMAGES | RESPIRATION | RADIOTHERAPY
Journal Article
BONE & JOINT JOURNAL, ISSN 2049-4394, 09/2017, Volume 99B, Issue 9, pp. 1140 - 1146
Aims Our aim was to evaluate the radiographic characteristics of patients undergoing total hip arthroplasty (THA) for the potential of posterior bony... 
REPLACEMENT | SURGERY | 4-DIMENSIONAL MOTION ANALYSIS | DIRECT ANTERIOR | DISLOCATION | FEMOROACETABULAR IMPINGEMENT | LESSER TROCHANTER | RISK | ORTHOPEDICS | ISCHIOFEMORAL IMPINGEMENT | MORPHOLOGY | RANGE
Journal Article
Medical Physics, ISSN 0094-2405, 04/2013, Volume 40, Issue 4, pp. 041717 - n/a
Purpose: Methods of reducing respiratory motion blurring in cone-beam CT (CBCT) have been limited to lung where soft tissue contrast is large.... 
image guided radiation therapy | Medical image quality | Medical image noise | image registration | motion management | cone‐beam CT | pneumodynamics | Tissues | patient monitoring | Medical image contrast | Pneumodyamics, respiration | Digital computing or data processing equipment or methods, specially adapted for specific applications | Computed tomography | Registration | respiratory motion | linear accelerators | tumours | Computerised tomographs | medical image processing | Artifacts and distortion | Reconstruction | Medical imaging | Analysis of motion | image reconstruction | Anatomy | Contrast | image motion analysis | lung | computerised tomography | Cone beam computed tomography | Lungs | Image data processing or generation, in general | Cancer | Medical image artifacts | cone-beam CT | 4-DIMENSIONAL COMPUTED-TOMOGRAPHY | LIVER | LUNG-TUMORS | QUALITY-ASSURANCE | CANCER | RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING | RADIATION-THERAPY | Reproducibility of Results | Movement | Humans | Radiographic Image Enhancement - methods | Four-Dimensional Computed Tomography - methods | Artifacts | Models, Biological | Radiotherapy, Image-Guided - methods | Respiratory-Gated Imaging Techniques - methods | Computer Simulation | Sensitivity and Specificity | Respiratory Mechanics | Cone-Beam Computed Tomography - methods | Radiation Therapy Physics
Journal Article
Medical Physics, ISSN 0094-2405, 10/2015, Volume 42, Issue 10, pp. 5903 - 5912
Purpose: Despite multiple methodologies already proposed to correct respiratory motion in the whole PET imaging field of view (FOV), such approaches have not... 
local motion correction | Medical image noise | image registration | Biomedical modeling | list‐mode | biomechanics | Scintigraphy | phantoms | Digital computing or data processing equipment or methods, specially adapted for specific applications | Computed tomography | Registration | Motion compensation | tumours | Computerised tomographs | medical image processing | Reconstruction | Positron emission tomography (PET) | Analysis of motion | image reconstruction | Biological material, e.g. blood, urine; Haemocytometers | Movement and locomotion | image motion analysis | affine and elastic registration | lung | computerised tomography | Measuring half‐life of a radioactive substance | Lungs | Image data processing or generation, in general | PET/CT | Medical image reconstruction | cancer | positron emission tomography | Computer modeling | list-mode | TRANSFORMATION | RECONSTRUCTION | CT IMAGES | VALIDATION | ATTENUATION CORRECTION | CHEMORADIOTHERAPY | SIMULATION | 4-DIMENSIONAL PET | PATIENT | RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING | TUMOR VOLUME | Movement | Humans | Lung Neoplasms - diagnostic imaging | Tomography, X-Ray Computed | Carcinoma, Non-Small-Cell Lung - diagnosis | Carcinoma, Non-Small-Cell Lung - diagnostic imaging | Positron-Emission Tomography | Image Processing, Computer-Assisted - methods | Lung Neoplasms - physiopathology | Lung Neoplasms - diagnosis | Respiration | Carcinoma, Non-Small-Cell Lung - physiopathology | CORRECTIONS | NEOPLASMS | BIOMEDICAL RADIOGRAPHY | IMAGES | PERFORMANCE | POSITRON COMPUTED TOMOGRAPHY | A CENTERS | LUNGS | GRAVITATION | ALGORITHMS | COMPARATIVE EVALUATIONS | 60 APPLIED LIFE SCIENCES
Journal Article