PURPOSE: The purpose of this study was to investigate the effects of contrast display exposure on neuronal directional and spatial frequency tuning. Neuronal responses were recorded from ninety-four neurons in cortical areas 17 and 18 in two adult cats. METHODS: A multi-channel microelectrode was implanted in cortical areas 17 and 18 of two paralyzed and anaesthetized cats. Various drifting sinusoidal grating contrast displays were presented to one of the cats' eyes in the visual field. Contour plots based on the neuronal responses to the drifting sinusoidal grating displays using various contrasts (i.e., 0.4, 0.7, and 1.0) and velocities (i.e., 4.6, 13.9, 23.1, 32.3, 41.5, 50.8, and 60.0 deg/sec) were plotted as a function of the spatial frequency and the direction associated with each velocity and contrast used. RESULTS: Five parameters were extracted from these contour plots: 1) optimum response, 2) preferred direction, 3) optimum spatial frequency, 4) directional tuning width, and 5) spatial frequency bandwidth. To determine the optimal velocity, each parameter was plotted against each of the specific display contrasts used, and a 'best fit' line was established. Response amplitudes were dependent on the type of contrast utilized; however, the spatial frequency and directional tuning properties were stable for the cortical neurons assessed. CONCLUSIONS: The results of the presentation of different contrasts on neuronal directional and spatial frequency tuning are consistent with behavioral results when medium and high contrast displays are used.
Animals ; Cats ; Contrast Sensitivity/*physiology ; Electrophysiological Phenomena ; Orientation/physiology ; Photic Stimulation/methods ; Sen ; Space Perception/physiology ; Visual Cortex/cytology/*physiology

OBJECTIVES: There has been continuous development in the area of stereoscopic medical imaging devices, and many stereoscopic imaging devices have been realized and applied in the medical field. In this article, we review past and current trends pertaining to the application stereo-imaging technologies in the medical field. METHODS: We describe the basic principles of stereo vision and visual issues related to it, including visual discomfort, binocular disparities, vergence-accommodation mismatch, and visual fatigue. We also present a brief history of medical applications of stereo-imaging techniques, examples of recently developed stereoscopic medical devices, and patent application trends as they pertain to stereo-imaging medical devices. RESULTS: Three-dimensional (3D) stereo-imaging technology can provide more realistic depth perception to the viewer than conventional two-dimensional imaging technology. Therefore, it allows for a more accurate understanding and analysis of the morphology of an object. Based on these advantages, the significance of stereoscopic imaging in the medical field increases in accordance with the increase in the number of laparoscopic surgeries, and stereo-imaging technology plays a key role in the diagnoses of the detailed morphologies of small biological specimens. CONCLUSIONS: The application of 3D stereo-imaging technology to the medical field will help improve surgical accuracy, reduce operation times, and enhance patient safety. Therefore, it is important to develop more enhanced stereoscopic medical devices.
Asthenopia ; Depth Perception ; Diagnostic Imaging ; Laparoscopy ; Patient Safety ; Vision Disparity ; Vision, Ocular

OBJECTIVETo detect unilateral spatial neglect phenomenon in children with attention deficit hyperactivity disorder (ADHD) and to test the hypothesis that the phenomenon is associated with ADHD.

METHODSThirty two boys met with ADHD diagnostic criteria of DSM-IV(TM) (ADHD group) and the 32 healthy boys without ADHD as control group participated in this study. All the participants received the flowing managements. The spatially sensitive tools of the Line Bisection test and the Star Cancellation test and some general measures (non-spatial) were used to evaluate spatial attention.

RESULTS(1) The score of Line Bisection test of boys with ADHD was (-9.37 +/- 6.57), and that of the control group was (-5.46 +/- 4.69), the difference between two groups was significant (t = -2.735, P < 0.01); the difference in left side score of the Star Cancellation test was statistically significant (t = -3.78, P < 0.01) in the ADHD group versus the control group (11.44 +/- 5.55 vs. 16.34 +/- 4.82), and the left side score was also lower than the right side one (17.13 +/- 6.36), the difference was significant (t = -3.09, P < 0.01). (2) Both groups' scores of the Line Bisection test were biased to the right side of "0" value respectively (ADHD group: t = -8.064, P < 0.01; control group: t = -6.585, P < 0.01), each side of which was lower versus "expected value" "27/27" on right side (ADHD group: t = -8.78, P < 0.01; control group: t = -7.39, P < 0.01) and left side (ADHD group: t = 15.85, P < 0.01; control group: t = -12.52, P < 0.01).

CONCLUSIONSThe results suggest that left spatial neglect may be a common general phenomenon of school age boys. Compared with normal children, children with ADHD may have obvious left spatial neglect, which suggest that there be a common neurophysiologic mechanism between left spatial bias and ADHD.

Adolescent ; Attention Deficit Disorder with Hyperactivity ; psychology ; Case-Control Studies ; Child ; Humans ; Male ; Perceptual Disorders ; Space Perception

Event-related potentials (ERP) is a good temporal resolution method to study the mechanism of visual field in brain. With the development of technique of high-density recording and brain imaging, the ERP is widely used in the location of the brain function. This article reviews the methods, results and primary conclusions in the field, and suggests several perspectives for the future research and application of ERP in the forensic science.
Attention/physiology* ; Brain/physiology* ; Evoked Potentials/physiology* ; Forensic Medicine ; Humans ; Photic Stimulation/methods* ; Space Perception/physiology* ; Visual Fields/physiology* ; Visual Perception

OBJECTIVETo observe the effects of repeated subconvulsive electrical stimuli to the hippocampus on the emotional behavior and spatial learning and memory ability in rats.

METHODSOne hundred and eight male Wistar rats were randomized into 3 groups. Animals in group SE (n = 42) were given subconvulsive electrical stimulation to the hippocampus through a constant pulsating current of 100 mu A with an intratrain frequency of 25 Hz, pulse duration of 1 millisecond, train duration of 10 seconds and interstimulus interval of 7 minutes, 8 times a day, for 5 days. In the electrode control group or CE group (n = 33), animals were implanted with an electrode in the hippocampus, but were not stimulated. Group NC (n = 33) animals received no electrode or any stimulation. The emotional behavior of experimental rats was examined by activity in an unfamiliar open field and resistance to capture from the open field, while the spatial learning and memory ability was measured during training in a Morris water maze.

RESULTSThe stimulated rats tested 1 month after the last round of stimulation displayed substantial decreases in open field activity (scale: 10.4 +/- 2.3, P < 0.05) and increases in resistance to capture (scale: 2.85 +/- 0.56, P < 0.01). The amount of time for rats in group SE to find the platform (latency) as a measurement for spatial bias was prolonged (29 +/- 7) seconds after 15 trials in the water maze, P < 0.05). The experimental rats swam aimlessly in all four pool quadrants during the probe trial in the Morris water maze.

CONCLUSIONSFollowing repeated subconvulsive electrical stimuli to the hippocampus, rats displayed long-lasting significant abnormalities in emotional behavior, increased anxiety and defensiveness, enhanced ease to and delayed habituation to startlement, transitory spatial learning and memory disorder, which parallels many of the symptoms in posttraumatic stress disorder patients.

Animals ; Electric Stimulation ; adverse effects ; Emotions ; physiology ; Hippocampus ; physiology ; Learning ; physiology ; Male ; Memory ; physiology ; Rats ; Rats, Wistar ; Space Perception ; physiology

Attention ; physiology ; Female ; Functional Laterality ; physiology ; Humans ; Middle Aged ; Neuropsychological Tests ; Prosopagnosia ; complications ; Space Perception ; physiology ; Stroke ; complications

PURPOSE: To investigate horizontal image disparity in three-dimensional (3-D) perception using 3-D animations in normal control patients and patients with intermittent exotropia, anisometropic amblyopia, and partially accommodative esotropia. MATERIALS AND METHODS: A total of 133 subjects were included. Stereopsis was measured using the Titmus Stereo test (Stereo Optical Inc., Chicago, IL, USA) and a 3-D stereopsis test with a 15 inch 3-D display laptop, adjusting 3-D parameters of 0 mm horizontal disparity to 15 mm horizontal disparity. RESULTS: When compared with normal controls, the average threshold of the 3-D stereopsis test was significantly reduced for esotropia patients (p<0.001) and for anisometric amblyopia patients (p<0.001), compared to normal controls. No significant difference was observed between normal controls and intermittent exotropia patients (p=0.082). The 3-D stereopsis test was correlated with the Titmus Stereo test (Spearman's rho=0.690, p<0.001). Mean difference in stereoacuity was 1.323 log seconds of arc (95% limits of agreement: 0.486 to 2.112), and 125 (92.5%) patients were within the limits of agreement. CONCLUSION: This study demonstrated that a 3-D stereopsis test with animation is highly correlated with the Titmus Stereo test; nevertheless, 3-D stereopsis with animations generates more image disparities than the conventional Titmus Stereo test. The 3-D stereopsis test is highly predictive for estimating real stereopsis in a 3-D movie theater.
Adult ; Aged ; Amblyopia/diagnosis ; Anisometropia/diagnosis ; *Depth Perception ; Esotropia/diagnosis ; Female ; Humans ; Imaging, Three-Dimensional/*instrumentation ; Male ; Middle Aged ; *Perceptual Disorders ; Software ; *Vision Disparity ; Vision, Binocular ; Visual Acuity/*physiology

Similar to the visual dual-pathway model, neurophysiological studies in non-human primates have suggested that the dual-pathway model is also applicable for explaining auditory cortical processing, including the ventral "what" pathway for object identification and the dorsal "where" pathway for spatial localization. This review summarizes evidence from human neuroimaging studies supporting the dual-pathway model for auditory cortical processing in humans.
Animals ; Auditory Cortex ; anatomy & histology ; physiology ; Auditory Pathways ; anatomy & histology ; physiology ; Auditory Perception ; physiology ; Humans ; Macaca ; anatomy & histology ; physiology ; Models, Neurological ; Neurons ; physiology ; Pitch Discrimination ; physiology ; Sound Localization ; physiology ; Space Perception ; physiology

PURPOSE: To examine the prevalence of visual field deterioration in contralateral eyes of patients with worsening open-angle glaucoma and to evaluate the spatial concordance of visual field deterioration between both eyes. METHODS: One hundred sixteen open-angle glaucoma patients who underwent 8 or more visual field examinations over > or =6 years of follow-up were included. The rates of the fast and slow components of visual field decay for each of 52 visual field test locations were calculated with point-wise exponential regression analysis. The spatial concordance of visual field deterioration in contralateral eyes was evaluated with a concordance ratio (calculated as the number of overlapping locations divided by the total number of deteriorating locations) and by comparing the rate of decay in corresponding modified glaucoma hemifield test clusters. RESULTS: The average visual field mean deviation (+/-standard deviation [SD]) was -8.5 (+/-6.4) dB and the mean (+/-SD) follow-up time was 9.0 (+/-1.6) years. Sixty-three patients had mild damage, 23 had moderate damage, and 30 had severe damage. The mean concordance ratio (+/-SD) was 0.46 (+/-0.32) for the mild group, 0.33 (+/-0.27) for the moderate group, and 0.35 (+/-0.21) for the severe group. Thirty-one patients (27%) had deterioration in concordant locations (p < 0.05). Visual field deterioration was greater in the superior hemifield than the inferior hemifield (p < 0.05) when evaluated with both the concordance ratio and modified glaucoma hemifield test cluster analysis methods. CONCLUSIONS: There is only fair spatial concordance with regard to visual field deterioration between the both eyes of an individual. We conclude that testing algorithms taking advantage of inter-eye spatial concordance would not be particularly advantageous in the early detection of glaucomatous deterioration.
Aged ; Female ; Glaucoma, Open-Angle/diagnosis/*epidemiology/physiopathology ; Humans ; Male ; Middle Aged ; Prevalence ; Space Perception/*physiology ; Vision Disorders/diagnosis/*epidemiology/physiopathology ; Visual Field Tests ; Visual Fields/*physiology

Amyloid beta-Peptides ; analysis ; Animals ; Frontal Lobe ; drug effects ; physiology ; Hippocampus ; drug effects ; physiology ; Learning ; drug effects ; Memory ; drug effects ; Rats ; Rats, Wistar ; Sodium Azide ; pharmacology ; Space Perception