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Virtual reality (VR) is a computer simulation system that can create and let users experience three-dimensional virtual scenes, and can provide users with multi-sensory information.In recent years, with the rapid development of 5G, artificial intelligence, big data and cloud computing, the application of VR technology in the field of ophthalmology has ushered in new opportunities and challenges.In terms of visual function assessment such as visual acuity, accommodative function, stereoscopic vision, VR combined with infrared eye tracking, binocular dichoptic vision and human-computer interaction can fully control the content presented to user, and provide the possibility to achieve personalized and automated diagnosis, which can effectively reduce labor costs.In the diagnosis and treatment of strabismus and amblyopia, VR combined with the above technologies and environmental immersion, three-dimensional imaging can provide users with rich images, reducing the difficulty of eye position measurement in strabismus and inhibition quantification in amblyopia.VR improves the fun and compliance of strabismus training, amblyopia training and stereoscopic training by imitating training paradigms such as convergence insufficiency training and visual perception training.The combination of augmented reality technology and computer-generated visual enhancement, holographic imaging, three-dimensional audio prompts and adaptive optics can effectively compensate for the visual defects of people with low vision and improve their quality of life.In the field of myopia prevention and control, the pros and cons of VR are still controversial, but it still has potential application value.In this article, the application status of virtual (augmented) reality technology in the assessment and reconstruction of visual function were reviewed, and the challenges it may face were analyzed, with a view to promoting the combination of medicine and engineering in ophthalmology diagnosis and treatment.
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@#AIM: To explore the effect of binocular visual function training on the reconstruction of binocular visual function and maintaining the stable eye position in postoperative patients with intermittent exotropia. <p>METHODS: A total of 142 patients with intermittent exotropia underwent strabismus surgery in our hospital from January 2010 to December 2015 were enrolled. These patients were divided into two groups according to whether had binocular visual function training after surgery. The treatment group was used the DV-100 system to train the three-level visual function after surgery. For the control group, no intervention was performed after the operation. Respectively analysis the differences of binocular visual function and eye position in the two groups of patients before and 1mo after surgery, 3mo after surgery, 6mo after surgery, and 1a after surgery. <p>RESULTS: The rate of the positive eye position in the treatment group was higher than the control group in the 6mo and 1a after surgery, and statistically significant difference was found(<i>P</i><0.05). In 1, 3, 6mo and 1a after surgery, there were statistically significant differences in binocular visual function between the two groups. The recovery of binocular visual function in the treatment group was significantly better than that in the control group. <p>CONCLUSION: The binocular visual function may have a certain degree of recovery in the patients with intermittent exotropia after surgery to obtain positive eye position. Through the postoperative visual perception learning and binocular visual function training, the binocular visual function can be better and faster recovered and reconstructed so as to obtain stereoscopic vision. It can better stabilize the eye position and help to reduce the rate of the patient's eye position fallback after surgery.
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@#AIM:To evaluate the clinical efficacy of treatment <i>via</i> disinhibition and visual function training in children patients with anisometropic amblyopia. <p>METHODS: Eighty-three children patients with anisometropic amblyopia were enrolled in the prospective case control study. All patients were monocular amblyopia, which were randomly classified into 2 groups as a training group(44 cases)and a control group(39 cases). All patients had routine glasses and quantitative coverage, and were treated by the combination of both family and clinic training. Patients in both control and training groups were treated by amblyopia training instrument(light brush, red flash, grating, etc.)and fine stimulation training <i>via</i> computer software. Additionally, patients in the training group, whose corrected vision improved more than 0.6, were also exposed to other treatments including monocular adjustment function training, disinhibition training, binocular adjustment function training, binocular integration and fusion function training. Visual acuity and outcomes were statistically analyzed after 6mo. <p>RESULTS: No significant difference in the total effective rate of vision improvement between the two groups. However, the overall visual acuity difference between the two groups was statistically significant(<i>P</i><0.05). After disinhibition and visual function training, the number of patients with improvement in both far and near stereopsis in the training group was significantly greater than that in the control group(<i>P</i><0.05). <p>CONCLUSION: Combinational treatment with disinhibition and binocular visual function training enhances the competitiveness of amblyopic eyes and eliminate inhibition, which is accompanied by improved visual acuity and ameliorated visual function in children patients with anisometropic amblyopia.
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@#AIM: To investigate the clinical efficacy of visual function training in the late stage of ametropic amblyopia treatment. <p>METHODS: One hundred and twenty two children patients and 244 eyes with ametropic amblyopia, which were ranged from January 2016 to December 2016, were enrolled in the prospective case control study. Patient inclusion criteria: spherical power≤ ±3.00D, absolute value of astigmatism(hereinafter referred to as the degree of astigmatism)≥2.00D, binocular spherical lens difference ≤1.50D, binocular cylinder difference ≤1.00D. All patients received preliminary treatment. After routine optometry and amblyopia treatment, visual acuity in amblyopic eyes improved to more than 0.6 and visual acuity difference between two eyes should be less than 2 lines in visual chart testing. Enrolled patients were randomly assigned into a training group(62 cases 124 eyes)and a control group(60 cases 120 eyes). All patients had routine glasses with a combination of both family and clinic training. Treatments in the control group included: amblyopia training instrument(light brush, red flash and grating etc.)and fine stimulation training through computer software. In addition to similar treatments in control group, patients in training group also received following treatments including monocular adjustment function training, binocular adjustment function training, binocular integration and fusion function training. After 6mo, visual acuity, near stereopsis, adjustment amplitude, adjustment sensitivity and adjustment response tests were compared and statistically analyzed in patients of both control and training groups. <p>RESULTS: Our data demonstrated that the overall visual acuity was significantly improved in training group(<i>P</i><0.05). Additionally, results of near stereopsis function, adjustment amplitude, adjustment sensitivity and adjustment response examination, also displayed significant difference between the two groups(<i>P</i><0.05). <p>CONCLUSION: Binocular visual function training has a certain effect in the improvement of successful cure rate, shortening treatment course and establishing a sound stereo vision function in the late stage of children patients receiving a comprehensive therapy.
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AIM: To evaluate the effect of binocular visual function training in pediatric ocular trauma. METHODS: There were 76 patients (76 eyes) that were hospitalized with a primary diagnosis of ocular injury at the Affiliated Hospital of Medical College, Qingdao University between January 2006 and December 2009. Binocular visual function training was given after primary wound repair. Far stereopsis function were checked using AIT-1000 synoptophore fusion, and near stereopsis function was checked using Titmus stereogram.Binocular visual function was compared before and after training. RESULTS: Before binocular visual function training,26 eyes(34%)had no binocular vision, after training there were only 16 eyes(21%) without binocular vision. Before undertaking binocular visual function training with fusion, only 27 eyes (36%) had binocular vision, after the training there were 48 eyes (63%) with binocular vision. Before undertaking binocular visual function training with far stereopsis ,there were 23 eyes (30%) with binocular vision, after the training there were 29 eyes (38%). Before binocular visual function training with near stereopsis, there were 14 eyes (18%) with binocular vision, after the training there were 33 eyes (43%) with binocular vision. There was a significant difference in the number of patients with binocular vision before and after binocular visual function training. CONCLUSION:The training is useful for the reconstruction of binocular visual function in pediatric ocular trauma.