2867 | Humans |
1499 | Male |
1420 | Female |
1073 | Adult |
997 | Tactile sensitivity |
825 | Human |
694 | User-Computer Interface |
569 | Computer Simulation |
562 | Middle Aged |
517 | Touch |
474 | Aged |
448 | Virtual reality |
440 | Lenses, Intraocular |
406 | Young Adult |
394 | Experimental study |
389 | Touch (physiology) |
372 | Robotics |
367 | User interface |
335 | Feedback |
277 | Intraocular lens |
275 | Perception |
266 | Adolescent |
264 | Treatment |
260 | Surgery |
224 | Equipment Design |
223 | Psychomotor Performance (physiology) |
220 | Algorithms |
207 | Vision |
207 | Animals |
196 | Aged, 80 and over |
193 | Modeling |
186 | Cognition |
183 | Touch Perception (physiology) |
180 | Visual Perception (physiology) |
176 | Prosthesis Design |
172 | Psychophysics |
163 | Phacoemulsification |
162 | Biomechanical Phenomena |
158 | Haptic interfaces |
153 | Stereognosis |
153 | Lens Implantation, Intraocular |
153 | Hand |
153 | Analysis of Variance |
150 | Visual Acuity |
149 | Orientation |
147 | Lens Implantation, Intraocular (methods) |
145 | Remote operation |
145 | Child |
141 | Models, Biological |
140 | Feedback regulation |
139 | Time Factors |
139 | Robotics (instrumentation) |
133 | Postoperative Complications |
132 | Space Perception (physiology) |
132 | Follow-Up Studies |
131 | Visual Perception |
131 | Task Performance and Analysis |
129 | Treatment Outcome |
128 | Cues |
126 | Ophthalmology |
124 | Space perception |
123 | Psychomotor Performance |
118 | Software |
118 | Lenses, Intraocular (adverse effects) |
117 | Suture Techniques |
117 | Hand (physiology) |
115 | Haptic perception |
115 | Force control |
114 | Robotics (methods) |
113 | Retrospective Studies |
113 | Movement (physiology) |
113 | Models, Anatomic |
112 | Reoperation |
111 | Reaction Time |
111 | Discrimination Learning |
108 | Prospective Studies |
102 | Attention |
100 | Photic Stimulation |
99 | Clinical Competence |
97 | Lens Capsule, Crystalline (pathology) |
97 | Implantation |
96 | Theory |
92 | Reproducibility of Results |
91 | Form Perception |
90 | Learning |
89 | Surgery, Computer-Assisted (methods) |
88 | Form Perception (physiology) |
88 | Cataract |
87 | Intermodal perception |
87 | Computer simulation |
83 | Functional Laterality (physiology) |
82 | Technique |
82 | Discrimination (Psychology) (physiology) |
81 | Visual Acuity (physiology) |
81 | Physical Stimulation |
81 | Computer Graphics |
80 | Sclera (surgery) |
80 | Lens Capsule, Crystalline (surgery) |
80 | Gripping |
80 | Complication |
80 | Acrylic Resins |
79 | Real time |
78 | Stress, Mechanical |
78 | Posterior chamber |
78 | Orientation (physiology) |
78 | Judgment |
77 | Comparative study |
76 | Silicone Elastomers |
75 | Simulator |
74 | Eye |
72 | Prosthesis Failure |
70 | Touch Perception |
70 | Imaging, Three-Dimensional |
69 | Proprioception |
69 | Man-Machine Systems |
69 | Magnetic Resonance Imaging |
68 | Hand Strength (physiology) |
68 | Elasticity |
68 | Blindness |
67 | Imaging, Three-Dimensional (methods) |
67 | Computer-Assisted Instruction |
66 | Equipment Failure Analysis |
65 | Surgery, Computer-Assisted (instrumentation) |
65 | Reaction Time (physiology) |
64 | Postoperative |
64 | Fingers (physiology) |
64 | Discrimination (Psychology) |
63 | Space Perception |
63 | Movement |
63 | Functional Laterality |
63 | Biocompatible Materials |
62 | Vibration |
62 | Brain (physiology) |
61 | Size Perception |
61 | Performance evaluation |
61 | Pattern Recognition, Visual |
61 | Memory |
60 | Surveys and Questionnaires |
60 | Physical Stimulation (methods) |
60 | Laparoscopy |
60 | Brain Mapping |
59 | Stereognosis (physiology) |
59 | Cataract Extraction |
59 | Blindness (psychology) |
58 | Rotation |
58 | Internet |
57 | Image Processing, Computer-Assisted |
56 | Stroke (rehabilitation) |
55 | Kinematics |
55 | Child, Preschool |
54 | Neuropsychological Tests |
54 | Motor Skills |
54 | General Surgery (education) |
54 | Feedback, Sensory (physiology) |
54 | Case study |
53 | Vitrectomy |
53 | Recognition (Psychology) (physiology) |
53 | Hearing |
52 | Control synthesis |
51 | Surface Properties |
51 | Pilot Projects |
51 | Pattern Recognition, Visual (physiology) |
51 | Motor Skills (physiology) |
51 | Fixation |
51 | Computer-Assisted Instruction (methods) |
50 | Models, Theoretical |
50 | Foreign-Body Migration (surgery) |
49 | Simulation |
49 | Photic Stimulation (methods) |
49 | Kinesthesis |
49 | Infant |
49 | Capsule |
49 | Body movement |
48 | Foreign-Body Migration (etiology) |
47 | United States |
47 | Proprioception (physiology) |
47 | Posture (physiology) |
47 | Learning (physiology) |
46 | Posture |
46 | Capsulorhexis |
45 | Sensation |
45 | Reference Values |
45 | Lens Implantation, Intraocular (adverse effects) |
45 | Interactive system |
45 | Biomaterial |
45 | Augmented reality |
44 | Swine |
44 | Sutures |
44 | Posterior |
44 | Man machine system |
44 | Handicapped aid |
44 | Actuator |
43 | Surgical Instruments |
43 | Laparoscopy (methods) |
42 | Stimulus shape |
42 | Siloxane polymer |
42 | Polymethyl Methacrylate |
42 | Motor control |
42 | Friction |
42 | Cataract (etiology) |
41 | User assistance |
41 | Opacification |
41 | Computer aided design |
40 | Spatial orientation |
40 | Phacoemulsification (methods) |
40 | Methylmethacrylates |
40 | Measurement sensor |
40 | Manipulator |
40 | Lens |
40 | Human operator |
40 | Hand Strength |
39 | Visualization |
39 | Postural Balance (physiology) |
39 | Phantoms, Imaging |
39 | Feedback, Sensory |
39 | Feasibility Studies |
38 | Information processing |
38 | Electroencephalography |
38 | Attention (physiology) |
38 | Actuators |
37 | Stroke (physiopathology) |
37 | Force |
37 | Finger |
36 | Size Perception (physiology) |
36 | Recognition (Psychology) |
36 | Motion control |
36 | Man machine relation |
36 | Animal |
36 | Age Factors |
35 | Somatosensory Cortex (physiology) |
35 | Sclera |
35 | Perception (physiology) |
35 | Multimodal interface |
35 | Device Removal |
35 | Computer graphics |
35 | Blindness (physiopathology) |
34 | Teaching |
34 | Sensory Deprivation |
34 | Polypropylenes |
34 | Optics and Photonics |
34 | Needles |
34 | Motricity |
34 | Motion |
34 | Microscopy, Electron, Scanning |
34 | Intraoperative Complications |
34 | Finite element method |
33 | virtual reality |
33 | Recognition |
33 | Rabbits |
33 | Medical application |
33 | Human computer interaction |
33 | Ergonomics |
33 | Delay time |
33 | Computer vision |
33 | Arm |
32 | intraocular lens |
32 | Robot |
32 | Review |
32 | Performance |
32 | Mental Recall |
32 | Input output equipment |
32 | Encephalon |
32 | Computer-Assisted Instruction (instrumentation) |
32 | Cadaver |
31 | Torque |
31 | Silicones |
31 | Reviews |
31 | Refraction, Ocular |
31 | Auditory Perception (physiology) |
31 | Anterior Chamber (surgery) |
30 | Weight Perception |
30 | Vision, Ocular |
30 | Upper limb |
30 | Tridimensional image |
30 | Magnetorheological fluid |
30 | Magnetic Resonance Imaging (methods) |
30 | Intraocular Pressure |
30 | Fingers |
30 | Collision avoidance |
30 | Application |
30 | Acoustic Stimulation |
29 | Visual information |
29 | Texture |
29 | Sensitivity and Specificity |
29 | Physical Stimulation (instrumentation) |
29 | Optimization |
29 | Muscle, Skeletal (physiology) |
29 | Models, Statistical |
29 | Models, Psychological |
29 | Medicine |
29 | Illusions |
29 | Graphical interface |
29 | Finite Element Analysis |
29 | Experiments |
29 | Depth Perception |
29 | Curvature |
28 | Tomography, X-Ray Computed |
28 | Tactile sensor |
28 | Surgery, Computer-Assisted |
28 | Stimulus texture |
28 | Sensorial perception |
28 | Prognosis |
28 | Postoperative Complications (etiology) |
28 | Perceptual illusion |
28 | Multisensory integration |
28 | Multimedia |
28 | Models, Neurological |
28 | Linkage mechanism |
28 | Kinesthesis (physiology) |
28 | Image Processing, Computer-Assisted (methods) |
28 | Iatrogenic |
28 | Force measurement |
28 | Endoscopy |
28 | Computer-Aided Design |
28 | Computer Systems |
28 | Cognition (physiology) |
27 | Workspace |
27 | Vision, Ocular (physiology) |
27 | Surgical Procedures, Operative |
27 | Signal Processing, Computer-Assisted |
27 | Sensory Thresholds (physiology) |
27 | Sensory Aids |
27 | Pressure |
27 | Postoperative Complications (pathology) |
27 | Motor Activity (physiology) |
27 | Minimally Invasive Surgical Procedures (instrumentation) |
27 | Manual activity |
27 | Internship and Residency |
27 | Fingers (innervation) |
27 | Exploration |
27 | Design |
27 | Cataract (pathology) |
27 | Calibration |
27 | Artificial intelligence |
27 | Aphakia, Postcataract (surgery) |
27 | Aging (physiology) |
26 | Visual perception |
26 | Three dimensional space |
26 | Psychometrics |
26 | Prostheses and Implants |
26 | Practice (Psychology) |
26 | Passivity |
26 | Nuclear magnetic resonance imaging |
26 | Image processing |
26 | Concept Formation |
26 | Blind |
25 | Transducers |
25 | Rehabilitation |
25 | Position control |
25 | Phacoemulsification (adverse effects) |
25 | Nervous system diseases |
25 | Manipulation |
25 | Implementation |
25 | Illusions (physiology) |
25 | Elderly |
25 | Educational Measurement |
25 | Display |
25 | Cataract Extraction (methods) |
25 | Case-Control Studies |
25 | Arm (physiology) |
25 | Anterior Chamber (pathology) |
24 | Visual servoing |
24 | Vehicle driving |
24 | Suturation |
24 | Sensorimotor coordination |
24 | Safety |
24 | Real time system |
24 | Minimally Invasive Surgical Procedures (methods) |
24 | Microscopy, Acoustic |
24 | Iris (surgery) |
24 | Imagination |
24 | Feedback (physiology) |
24 | Engineering design |
24 | Data Interpretation, Statistical |
23 | Urology |
23 | Telemedicine |
23 | Synchronization |
23 | Palpation |
23 | Minimally Invasive Surgical Procedures |
23 | Memory (physiology) |
23 | Laparoscopy (education) |
23 | Gripper |
23 | Gravitation |
23 | Endoscopic surgery |
23 | Education |
23 | Education, Medical |
23 | Distance Perception |
23 | Control system |
23 | Blindness (congenital) |
23 | Biomechanical Phenomena (physiology) |
22 | haptics |
22 | Tissue Adhesives (therapeutic use) |
22 | Teaching (methods) |
22 | Spatial representation |
22 | Skin |
22 | Sex Factors |
22 | Paresis (rehabilitation) |
22 | Neurons (physiology) |
22 | Motor car |
22 | Motion Perception (physiology) |
22 | Micromanipulation |
22 | Localization |
22 | Laterality |
22 | Laser Therapy |
22 | Image Interpretation, Computer-Assisted (methods) |
22 | Goal directed movement |
22 | Exploratory Behavior (physiology) |
22 | Environment |
22 | Electromyography |
22 | Education, Medical (methods) |
22 | Child Development |
22 | Central nervous system |
22 | Blindness (rehabilitation) |
22 | Bilateral |
22 | Anterior chamber |
21 | Viscosity |
21 | Telemedicine (methods) |
21 | Telemedicine (instrumentation) |
21 | Stiffness |
21 | Refraction, Ocular (physiology) |
21 | Problem Solving |
21 | Parietal Lobe (physiology) |
21 | Object oriented |
21 | Motor Activity |
21 | Methyl methacrylate polymer |
21 | Memory, Short-Term |
21 | Implanted |
21 | Hand (innervation) |
21 | Feedback, Physiological |
21 | Face |
21 | Extraction |
21 | Exploratory Behavior |
21 | Evaluation |
21 | Endoscopy (methods) |
21 | Display devices |
21 | Depth Perception (physiology) |
21 | Degrees of freedom (mechanics) |
21 | Connective Tissue (physiology) |
21 | Accuracy |
20 | Vision disorder |
20 | Video signal |
20 | System identification |
20 | Sensors |
20 | Postoperative Complications (prevention & control) |
20 | Perceptual development |
20 | Nephrology |
20 | Models |
20 | Memory, Short-Term (physiology) |
20 | Master slave relationship |
20 | Manikins |
20 | Long term |
20 | Guidance |
20 | Graphics |
20 | Eye disease |
20 | Distributed system |
20 | Curriculum |
20 | Control program |
20 | Computer Peripherals |
20 | Cataract Extraction (adverse effects) |
20 | Artificial Intelligence |
20 | Acrylic polymer |
19 | phacoemulsification |
19 | density functional calculations |
19 | Ultrasound |
19 | Transfer (Psychology) |
19 | Trajectory |
19 | Therapy, Computer-Assisted (methods) |
19 | Therapy, Computer-Assisted (instrumentation) |
19 | Spatial memory |
19 | Risk Factors |
19 | Rheology |
19 | Pseudophakia (physiopathology) |
19 | Optical Illusions |
19 | Object |
19 | Nerve Net (physiology) |
19 | Modelling |
19 | Intraocular |
19 | Inertia |
19 | Incidence |
19 | Frame of reference |
19 | Feedback system |
19 | Evaluation Studies as Topic |
19 | Discrimination |
19 | Cornea (surgery) |
19 | Coordination |
19 | Closed feedback |
19 | Ciliary Body (ultrasonography) |
19 | Cerebral Cortex (physiology) |
19 | Assembly |
19 | Adaptation, Physiological (physiology) |
18 | fMRI |
18 | cataract |
18 | Workload |
18 | Walking |
18 | Three dimensional model |
18 | Surface |
18 | Sensory Thresholds |
18 | Remote control |
18 | Postoperative Period |
18 | Neural network |