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Publication Date2001, ISBN 0849308070, 366
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SPINE, ISSN 0362-2436, 02/2017, Volume 42, Issue 4, pp. 224 - 231
STUDY DESIGN.We prospectively evaluated adjacent disc levels after anterior cervical discectomy and arthroplasty (ACDA) using kinematic magnetic resonance...
anterior cervical discectomy | adjacent level disease | cervical arthroplasty | kinematic MRI | FUSION | CLINICAL-TRIAL | FOLLOW-UP | HETEROTOPIC OSSIFICATION | CLINICAL NEUROLOGY | BI-LEVEL | BRYAN DISC ARTHROPLASTY | DEVICE EXEMPTION | MOTION | SINGLE-LEVEL | SEGMENT DISEASE | ORTHOPEDICS
anterior cervical discectomy | adjacent level disease | cervical arthroplasty | kinematic MRI | FUSION | CLINICAL-TRIAL | FOLLOW-UP | HETEROTOPIC OSSIFICATION | CLINICAL NEUROLOGY | BI-LEVEL | BRYAN DISC ARTHROPLASTY | DEVICE EXEMPTION | MOTION | SINGLE-LEVEL | SEGMENT DISEASE | ORTHOPEDICS
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Loading RightsIEEE/ASME Transactions on Mechatronics, ISSN 1083-4435, 08/2014, Volume 19, Issue 4, pp. 1289 - 1299
This paper reports the development of an MRI-Safe robot for direct (interventional) MRI-guided endorectal prostate biopsy. The robot is constructed of...
pneumatic | robot | prostate biopsy | Magnetic resonance imaging | Robot kinematics | Motor | Biopsy | Kinematics | Pneumatic systems | Needles | MRI-Safe | MRI-compatible | SYSTEM | FEASIBILITY | MANIPULATOR | PRINCIPLE | GUIDANCE | CANCER | ENGINEERING, MECHANICAL | ENGINEERING, ELECTRICAL & ELECTRONIC | INTERVENTIONS | COMPATIBLE PNEUMATIC ROBOT | NEEDLE PLACEMENT | REGISTRATION | ENGINEERING, MANUFACTURING | AUTOMATION & CONTROL SYSTEMS | Mechatronics | Insertion | Actuation | Patients | Prostate | Robots | motor
pneumatic | robot | prostate biopsy | Magnetic resonance imaging | Robot kinematics | Motor | Biopsy | Kinematics | Pneumatic systems | Needles | MRI-Safe | MRI-compatible | SYSTEM | FEASIBILITY | MANIPULATOR | PRINCIPLE | GUIDANCE | CANCER | ENGINEERING, MECHANICAL | ENGINEERING, ELECTRICAL & ELECTRONIC | INTERVENTIONS | COMPATIBLE PNEUMATIC ROBOT | NEEDLE PLACEMENT | REGISTRATION | ENGINEERING, MANUFACTURING | AUTOMATION & CONTROL SYSTEMS | Mechatronics | Insertion | Actuation | Patients | Prostate | Robots | motor
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Loading RightsJournal of Speech, Language, and Hearing Research, ISSN 1092-4388, 2014, Volume 57, Issue 2, pp. S626 - S636
Purpose: Accurate tissue motion tracking within the tongue can help professionals diagnose and treat vocal tract--related disorders, evaluate speech quality...
Point tracking | Muscle length | MRI | Deformable registration | Tongue motion | Motion | Comparative Analysis | Diagnostic Tests | Surgery | Human Body | Evaluation Methods | Speech Impairments | Speech Communication | Error Patterns | Clinical Diagnosis | Humans | Middle Aged | Male | Tongue - physiology | Young Adult | Speech - physiology | Algorithms | Magnetic Resonance Imaging, Cine - methods | Movement - physiology | Models, Biological | Phonetics | Adult | Female | Muscle Strength - physiology | Tongue | Magnetic resonance imaging | Physiological aspects | Human mechanics | Physiological research | Research | Methods | Speech | Kinematics | tongue motion | muscle length | point tracking
Point tracking | Muscle length | MRI | Deformable registration | Tongue motion | Motion | Comparative Analysis | Diagnostic Tests | Surgery | Human Body | Evaluation Methods | Speech Impairments | Speech Communication | Error Patterns | Clinical Diagnosis | Humans | Middle Aged | Male | Tongue - physiology | Young Adult | Speech - physiology | Algorithms | Magnetic Resonance Imaging, Cine - methods | Movement - physiology | Models, Biological | Phonetics | Adult | Female | Muscle Strength - physiology | Tongue | Magnetic resonance imaging | Physiological aspects | Human mechanics | Physiological research | Research | Methods | Speech | Kinematics | tongue motion | muscle length | point tracking
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Loading RightsPLoS ONE, ISSN 1932-6203, 12/2013, Volume 8, Issue 12, p. e84004
Background: Non-invasive imaging techniques such as magnetic resonance imaging (MRI) provide the ability to evaluate the complex anatomy of bone and soft...
TRUEFISP | ARTHROGRAPHY | MULTIDISCIPLINARY SCIENCES | CARPAL INSTABILITY | LIGAMENT INJURIES | MOVEMENT | STRESS VIEWS | STEADY-STATE | DISTAL RADIOULNAR JOINT | KINEMATICS | Joint Instability - prevention & control | Wrist - physiology | Prospective Studies | Humans | Middle Aged | Male | Pronation - physiology | Supination - physiology | Magnetic Resonance Imaging | Movement - physiology | Image Processing, Computer-Assisted | Wrist Joint - physiology | Adult | Female | Magnetic resonance imaging | Ionizing radiation | Usage | Nuclear magnetic resonance--NMR | Physicians | Arthritis | Joint surgery | Tissues | Maneuvers | Bone surgery | Wrist | Kinematics | Bones | Temporal resolution | Age | Medical personnel | Medical imaging | Imaging techniques | Stability analysis | Motion stability | Soft tissues | Medicine | Biomechanics | Orthopedics | Dynamic stability | In vivo methods and tests | Resonance | Hand surgery | Deviation | Bone imaging | Ligaments | Nuclear magnetic resonance | NMR
TRUEFISP | ARTHROGRAPHY | MULTIDISCIPLINARY SCIENCES | CARPAL INSTABILITY | LIGAMENT INJURIES | MOVEMENT | STRESS VIEWS | STEADY-STATE | DISTAL RADIOULNAR JOINT | KINEMATICS | Joint Instability - prevention & control | Wrist - physiology | Prospective Studies | Humans | Middle Aged | Male | Pronation - physiology | Supination - physiology | Magnetic Resonance Imaging | Movement - physiology | Image Processing, Computer-Assisted | Wrist Joint - physiology | Adult | Female | Magnetic resonance imaging | Ionizing radiation | Usage | Nuclear magnetic resonance--NMR | Physicians | Arthritis | Joint surgery | Tissues | Maneuvers | Bone surgery | Wrist | Kinematics | Bones | Temporal resolution | Age | Medical personnel | Medical imaging | Imaging techniques | Stability analysis | Motion stability | Soft tissues | Medicine | Biomechanics | Orthopedics | Dynamic stability | In vivo methods and tests | Resonance | Hand surgery | Deviation | Bone imaging | Ligaments | Nuclear magnetic resonance | NMR
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Loading RightsMedical Physics, ISSN 0094-2405, 06/2015, Volume 42, Issue 6Part26, pp. 3538 - 3539
Purpose: Exception gating and dynamic MLC tracking on MRI‐gRT systems require segmentation of high temporal resolution images. Multi‐band excitation is an...
Image registration | Magnetic resonance imaging | Multileaf collimators | Time series analysis | Kinematics | Anatomy | Three dimensional image processing | Sequence analysis | Image reconstruction
Image registration | Magnetic resonance imaging | Multileaf collimators | Time series analysis | Kinematics | Anatomy | Three dimensional image processing | Sequence analysis | Image reconstruction
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Loading RightsNMR in biomedicine, ISSN 0952-3480, 2017, Volume 30, Issue 11, pp. e3791 - n/a
Anatomical (static) magnetic resonance imaging (MRI) is the most useful imaging technique for the evaluation and assessment of internal derangement of the...
bone kinematics | knee | compressed sensing | principal component analysis | cine MRI | dynamic MRI | RECONSTRUCTION | REAL-TIME MRI | RESPIRATORY MOTION | BIOMECHANICS | WEIGHT-BEARING | BIOPHYSICS | SPECTROSCOPY | RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING | Femur - physiology | Biomechanical Phenomena | Knee Joint - physiology | Image Processing, Computer-Assisted | Tibia - physiology | Humans | Magnetic Resonance Imaging - methods | Adult | Female | Imaging, Three-Dimensional | Magnetic resonance imaging | Kinematics | Reconstruction | Knee | Image registration | Evaluation | Image resolution | High resolution | Nuclear magnetic resonance--NMR | Medical imaging | Visual signals | Visual stimuli | Principal components analysis | Knee (anatomy) | Image reconstruction | Image quality | Pain | Hardware | Gating
bone kinematics | knee | compressed sensing | principal component analysis | cine MRI | dynamic MRI | RECONSTRUCTION | REAL-TIME MRI | RESPIRATORY MOTION | BIOMECHANICS | WEIGHT-BEARING | BIOPHYSICS | SPECTROSCOPY | RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING | Femur - physiology | Biomechanical Phenomena | Knee Joint - physiology | Image Processing, Computer-Assisted | Tibia - physiology | Humans | Magnetic Resonance Imaging - methods | Adult | Female | Imaging, Three-Dimensional | Magnetic resonance imaging | Kinematics | Reconstruction | Knee | Image registration | Evaluation | Image resolution | High resolution | Nuclear magnetic resonance--NMR | Medical imaging | Visual signals | Visual stimuli | Principal components analysis | Knee (anatomy) | Image reconstruction | Image quality | Pain | Hardware | Gating
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Loading RightsKnee, The, ISSN 0968-0160, 2015, Volume 22, Issue 6, pp. 547 - 553
Abstract Background Multiple techniques are used for femoral tunnel drilling in ACL reconstruction, including the Mini-two Incision Method (MT) and...
Orthopedics | Cartilage | ACL reconstruction | Femoral tunnel drilling | Kinematics | KNEE | SURGERY | SPORT SCIENCES | INJURY | ANGLE | ANTERIOR CRUCIATE LIGAMENT | TIBIOFEMORAL KINEMATICS | TIBIAL SUBLUXATION | RUPTURE | T-1-RHO | OSTEOARTHRITIS | ORTHOPEDICS | Knee Injuries - physiopathology | Anterior Cruciate Ligament - surgery | Anterior Cruciate Ligament Reconstruction - methods | Anterior Cruciate Ligament Injuries | Humans | Knee Joint - physiopathology | Middle Aged | Magnetic Resonance Imaging - methods | Male | Knee Injuries - surgery | Young Adult | Knee Joint - surgery | Biomechanical Phenomena | Knee Joint - pathology | Range of Motion, Articular - physiology | Adolescent | Adult | Anterior Cruciate Ligament - pathology | Female | Knee Injuries - diagnosis | Femur - surgery | Orthopedic surgery | Magnetic resonance imaging | Analysis | Drilling and boring | Tunnels | Knee | Ligaments | Skin & tissue grafts | Methods | femoral tunnel drilling | kinematics | cartilage
Orthopedics | Cartilage | ACL reconstruction | Femoral tunnel drilling | Kinematics | KNEE | SURGERY | SPORT SCIENCES | INJURY | ANGLE | ANTERIOR CRUCIATE LIGAMENT | TIBIOFEMORAL KINEMATICS | TIBIAL SUBLUXATION | RUPTURE | T-1-RHO | OSTEOARTHRITIS | ORTHOPEDICS | Knee Injuries - physiopathology | Anterior Cruciate Ligament - surgery | Anterior Cruciate Ligament Reconstruction - methods | Anterior Cruciate Ligament Injuries | Humans | Knee Joint - physiopathology | Middle Aged | Magnetic Resonance Imaging - methods | Male | Knee Injuries - surgery | Young Adult | Knee Joint - surgery | Biomechanical Phenomena | Knee Joint - pathology | Range of Motion, Articular - physiology | Adolescent | Adult | Anterior Cruciate Ligament - pathology | Female | Knee Injuries - diagnosis | Femur - surgery | Orthopedic surgery | Magnetic resonance imaging | Analysis | Drilling and boring | Tunnels | Knee | Ligaments | Skin & tissue grafts | Methods | femoral tunnel drilling | kinematics | cartilage
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Loading RightsIEEE/ASME Transactions on Mechatronics, ISSN 1083-4435, 08/2015, Volume 20, Issue 4, pp. 1920 - 1932
This paper presents a fully actuated robotic system for percutaneous prostate therapy under continuously acquired live magnetic resonance imaging (MRI)...
piezoelectric actuation | Magnetic resonance imaging | Robot kinematics | Noise | Biopsy | image-guided therapy | Needles | Software | MRI-guided robotics | brachytherapy | Field programmable gate arrays | Piezoelectric actuation | ENGINEERING, MANUFACTURING | AUTOMATION & CONTROL SYSTEMS | ENGINEERING, MECHANICAL | ENGINEERING, ELECTRICAL & ELECTRONIC | Robots | Nuclear magnetic resonance--NMR | Placement | Prostate | Robotics | Computer programs | Image-guided Therapy | Piezoelectric Actuation | Brachytherapy | MRI-Guided Robotics
piezoelectric actuation | Magnetic resonance imaging | Robot kinematics | Noise | Biopsy | image-guided therapy | Needles | Software | MRI-guided robotics | brachytherapy | Field programmable gate arrays | Piezoelectric actuation | ENGINEERING, MANUFACTURING | AUTOMATION & CONTROL SYSTEMS | ENGINEERING, MECHANICAL | ENGINEERING, ELECTRICAL & ELECTRONIC | Robots | Nuclear magnetic resonance--NMR | Placement | Prostate | Robotics | Computer programs | Image-guided Therapy | Piezoelectric Actuation | Brachytherapy | MRI-Guided Robotics
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Loading RightsMedical Physics, ISSN 0094-2405, 10/2016, Volume 43, Issue 10, pp. 5347 - 5356
Purpose: Percutaneous ablation under MRI-guidance allows treating otherwise inoperable liver tumors locally using a catheter probe. However, manually placing...
biomedical MRI | needles | Image scanners | Laser imaging | liver | medical robotics | Biological material, e.g. blood, urine; Haemocytometers | Laser ablation | Robotics | medical robot | Magnetic resonance imaging | Involving electronic [emr] or nuclear [nmr] magnetic resonance, e.g. magnetic resonance imaging | image‐guided therapy | Kinematics | User interfaces | Medical magnetic resonance imaging | laser applications in medicine | tumours | liver ablation | Pneumatics | magnetic resonance imaging | image-guided therapy | SYSTEM | DESIGN | BIOPSY | GUIDANCE | TUMORS | INTERVENTIONS | LASER-ABLATION | NEEDLE PLACEMENT | RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING | User-Computer Interface | Humans | Surgery, Computer-Assisted - instrumentation | Male | Magnetic Resonance Imaging | Surgery, Computer-Assisted - adverse effects | Pilot Projects | Lasers | Liver - diagnostic imaging | Adult | Ablation Techniques - instrumentation | Liver - surgery | Safety | Ablation Techniques - adverse effects
biomedical MRI | needles | Image scanners | Laser imaging | liver | medical robotics | Biological material, e.g. blood, urine; Haemocytometers | Laser ablation | Robotics | medical robot | Magnetic resonance imaging | Involving electronic [emr] or nuclear [nmr] magnetic resonance, e.g. magnetic resonance imaging | image‐guided therapy | Kinematics | User interfaces | Medical magnetic resonance imaging | laser applications in medicine | tumours | liver ablation | Pneumatics | magnetic resonance imaging | image-guided therapy | SYSTEM | DESIGN | BIOPSY | GUIDANCE | TUMORS | INTERVENTIONS | LASER-ABLATION | NEEDLE PLACEMENT | RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING | User-Computer Interface | Humans | Surgery, Computer-Assisted - instrumentation | Male | Magnetic Resonance Imaging | Surgery, Computer-Assisted - adverse effects | Pilot Projects | Lasers | Liver - diagnostic imaging | Adult | Ablation Techniques - instrumentation | Liver - surgery | Safety | Ablation Techniques - adverse effects
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A Feasibility Study of Hand Kinematics for EVA Analysis Using Magnetic Resonance Imaging
SAE technical paper series, Volume 921253.
A new method of analyzing the kinematics of joint motion is developed in this study. Magnetic Resonance Imaging (MRI) offers several distinct advantages. Past...
Kinematics | Magnetic resonance imaging (MRI)
Kinematics | Magnetic resonance imaging (MRI)
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Loading RightsClinical Biomechanics, ISSN 0268-0033, 2014, Volume 29, Issue 9, pp. 997 - 1002
Abstract Background Vertically open magnetic resonance imaging permits study of knee joint contact during weight bearing. Lateral wedging is a low cost...
Physical Medicine and Rehabilitation | Knee | Cartilage | Osteoarthritis | Imaging | Contact | Lateral wedge | SPORT SCIENCES | ENGINEERING, BIOMEDICAL | WEDGED INSOLES | PAIN | REDUCTION | FOOT ORTHOSES | CRUCIATE LIGAMENT RECONSTRUCTION | FLEXION | KINETICS | ORTHOPEDICS | KNEE OSTEOARTHRITIS | JOINT | KINEMATICS | Tibia - physiology | United States | Heel | Humans | Middle Aged | Foot Orthoses | Awards and Prizes | Magnetic Resonance Imaging - methods | Biomechanical Phenomena - physiology | Male | Weight-Bearing - physiology | Femur - physiology | Knee Joint - physiology | Societies, Medical | Computer Simulation | Range of Motion, Articular - physiology | Adult | Female | Aged | Osteoarthritis, Knee - rehabilitation | Osteoarthritis, Knee - physiopathology | Biomechanics | Magnetic resonance imaging | Trade and professional associations
Physical Medicine and Rehabilitation | Knee | Cartilage | Osteoarthritis | Imaging | Contact | Lateral wedge | SPORT SCIENCES | ENGINEERING, BIOMEDICAL | WEDGED INSOLES | PAIN | REDUCTION | FOOT ORTHOSES | CRUCIATE LIGAMENT RECONSTRUCTION | FLEXION | KINETICS | ORTHOPEDICS | KNEE OSTEOARTHRITIS | JOINT | KINEMATICS | Tibia - physiology | United States | Heel | Humans | Middle Aged | Foot Orthoses | Awards and Prizes | Magnetic Resonance Imaging - methods | Biomechanical Phenomena - physiology | Male | Weight-Bearing - physiology | Femur - physiology | Knee Joint - physiology | Societies, Medical | Computer Simulation | Range of Motion, Articular - physiology | Adult | Female | Aged | Osteoarthritis, Knee - rehabilitation | Osteoarthritis, Knee - physiopathology | Biomechanics | Magnetic resonance imaging | Trade and professional associations
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Design and Validation of a CT- and MRI-Guided Robot for Percutaneous Needle Procedures
IEEE Transactions on Robotics, ISSN 1552-3098, 08/2016, Volume 32, Issue 4, pp. 973 - 987
This paper describes the design and evaluation of the second generation of a robotic system called the light puncture robot for thoracic and abdominopelvic...
parallel robots | Magnetic resonance imaging | Computed tomography | Biopsy | MRI | Phantoms | medical robotics | Manuals | robot kinematics | Needles | interventional radiology (IR) | Robots | SYSTEM | ROBOTICS | MANIPULATOR | ASSISTANCE | IMPLEMENTATION | GUIDANCE | COMPUTED-TOMOGRAPHY | ACCURACY | INTERVENTIONS | PUNCTURE ROBOT | BIOPSIES | CT imaging | Image segmentation | Usage | Analysis | Methods | Design engineering | Inverse kinematics | Images | Trajectories | Design analysis | Robotics | Life Sciences
parallel robots | Magnetic resonance imaging | Computed tomography | Biopsy | MRI | Phantoms | medical robotics | Manuals | robot kinematics | Needles | interventional radiology (IR) | Robots | SYSTEM | ROBOTICS | MANIPULATOR | ASSISTANCE | IMPLEMENTATION | GUIDANCE | COMPUTED-TOMOGRAPHY | ACCURACY | INTERVENTIONS | PUNCTURE ROBOT | BIOPSIES | CT imaging | Image segmentation | Usage | Analysis | Methods | Design engineering | Inverse kinematics | Images | Trajectories | Design analysis | Robotics | Life Sciences
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Loading RightsThe American Journal of Sports Medicine, ISSN 0363-5465, 6/2014, Volume 42, Issue 6, pp. 1290 - 1295
Background: A Hill-Sachs lesion is a common injury associated with anterior glenohumeral instability, and a Hill-Sachs lesion that engages with the anterior...
In vivo | On-track Hill-Sachs lesion | 3D motion analysis | MRI | Anterior shoulder instability | Off-track Hill-Sachs lesion | Glenoid track | Hill-Sachs lesion | Engaging Hill-Sachs lesion | ROTATION | SPORT SCIENCES | SHOULDER | on-track Hill-Sachs lesion | FAILURE | REPAIR | FLEXION | engaging Hill-Sachs lesion | off-track Hill-Sachs lesion | in vivo | glenoid track | VERTICALLY OPEN MRI | ORTHOPEDICS | ABDUCTION | JOINT | anterior shoulder instability | KINEMATICS | Humans | Shoulder Joint - anatomy & histology | Glenoid Cavity - anatomy & histology | Shoulder Joint - physiology | Glenoid Cavity - physiology | Male | Healthy Volunteers | Humerus - anatomy & histology | Humerus - physiology | Magnetic Resonance Imaging | Movement - physiology | Computer Simulation | Scapula - anatomy & histology | Adult | Female | Scapula - physiology | Imaging, Three-Dimensional | Usage | Shoulder injuries | Diagnosis | Magnetic resonance imaging | Studies | Nuclear magnetic resonance--NMR | Shoulder | Injuries
In vivo | On-track Hill-Sachs lesion | 3D motion analysis | MRI | Anterior shoulder instability | Off-track Hill-Sachs lesion | Glenoid track | Hill-Sachs lesion | Engaging Hill-Sachs lesion | ROTATION | SPORT SCIENCES | SHOULDER | on-track Hill-Sachs lesion | FAILURE | REPAIR | FLEXION | engaging Hill-Sachs lesion | off-track Hill-Sachs lesion | in vivo | glenoid track | VERTICALLY OPEN MRI | ORTHOPEDICS | ABDUCTION | JOINT | anterior shoulder instability | KINEMATICS | Humans | Shoulder Joint - anatomy & histology | Glenoid Cavity - anatomy & histology | Shoulder Joint - physiology | Glenoid Cavity - physiology | Male | Healthy Volunteers | Humerus - anatomy & histology | Humerus - physiology | Magnetic Resonance Imaging | Movement - physiology | Computer Simulation | Scapula - anatomy & histology | Adult | Female | Scapula - physiology | Imaging, Three-Dimensional | Usage | Shoulder injuries | Diagnosis | Magnetic resonance imaging | Studies | Nuclear magnetic resonance--NMR | Shoulder | Injuries
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Loading RightsMedical Physics, ISSN 0094-2405, 01/2013, Volume 40, Issue 1, pp. 012301 - n/a
Purpose: The developed world faces major socioeconomic and medical challenges associated with motor vehicle accidents caused by risky driving. Functional...
biomedical MRI | virtual reality | Data analysis | Medical imaging | Statistical analysis | Computer simulation | head motion | biomechanics | brain | Movement and locomotion | MRI: anatomic, functional, spectral, diffusion | driving simulation | Magnets | fMRI | Involving electronic [emr] or nuclear [nmr] magnetic resonance, e.g. magnetic resonance imaging | Magnetic resonance imaging | Kinematics | neurophysiology | Magnetic fields | Spatial resolution | Functional imaging | FITNESS | ALCOHOL | PERFORMANCE | ASSESSMENTS | ROAD | MOTOR | RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING | BRAIN | Artifacts | Movement | Humans | Magnetic Resonance Imaging - methods | Adult | Female | Male | Whole Body Imaging | Safety | Automobile Driving | Brain - physiology | Head - physiology
biomedical MRI | virtual reality | Data analysis | Medical imaging | Statistical analysis | Computer simulation | head motion | biomechanics | brain | Movement and locomotion | MRI: anatomic, functional, spectral, diffusion | driving simulation | Magnets | fMRI | Involving electronic [emr] or nuclear [nmr] magnetic resonance, e.g. magnetic resonance imaging | Magnetic resonance imaging | Kinematics | neurophysiology | Magnetic fields | Spatial resolution | Functional imaging | FITNESS | ALCOHOL | PERFORMANCE | ASSESSMENTS | ROAD | MOTOR | RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING | BRAIN | Artifacts | Movement | Humans | Magnetic Resonance Imaging - methods | Adult | Female | Male | Whole Body Imaging | Safety | Automobile Driving | Brain - physiology | Head - physiology
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