S. Khizer Khaderi scite author profile

The interest around the utilization of video games as a component of rehabilitative therapy has dramatically increased over the past decade. Research efforts have confirmed the positive effects of repetitive gaming in improving visual outcomes; however, there is limited knowledge on the mechanism of action delivered by repetitive gaming. Utilizing knowledge of the visual system, including targeting specific cells in the retina with visual stimuli, the authors captured the training effects of gaming to augment pre-selected skills. Specifically, the authors embedded a homerun derby style baseball game with a contrast threshold test, to stimulate parvocellular retinal ganglion cells. Parvocellular cells are the first line of the ventral, or “what” pathway of visual processing. Repetitive stimulation of the parvocellular system shows promising preliminary results in improving batting performance.

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Beyond Gaming

Patel

¹

,

Lin²,

Khaderi

³

0

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The interest around the utilization of video games as a component of rehabilitative therapy has dramatically increased over the past decade. Research efforts have confirmed the positive effects of repetitive gaming in improving visual outcomes; however, there is limited knowledge on the mechanism of action delivered by repetitive gaming. Utilizing knowledge of the visual system, including targeting specific cells in the retina with visual stimuli, the authors captured the training effects of gaming to augment pre-selected skills. Specifically, the authors embedded a homerun derby style baseball game with a contrast threshold test, to stimulate parvocellular retinal ganglion cells. Parvocellular cells are the first line of the ventral, or “what” pathway of visual processing. Repetitive stimulation of the parvocellular system shows promising preliminary results in improving batting performance.

show abstract

Beyond Gaming

Patel

¹

,

Lin

²

,

Khaderi³

2015

0

View full text Add to dashboard Cite

The interest around the utilization of video games as a component of rehabilitative therapy has dramatically increased over the past decade. Research efforts have confirmed the positive effects of repetitive gaming in improving visual outcomes; however, there is limited knowledge on the mechanism of action delivered by repetitive gaming. Utilizing knowledge of the visual system, including targeting specific cells in the retina with visual stimuli, the authors captured the training effects of gaming to augment pre-selected skills. Specifically, the authors embedded a homerun derby style baseball game with a contrast threshold test, to stimulate parvocellular retinal ganglion cells. Parvocellular cells are the first line of the ventral, or “what” pathway of visual processing. Repetitive stimulation of the parvocellular system shows promising preliminary results in improving batting performance.

show abstract

S. Khizer Khaderi

Is Pentoxifylline Plus Vitamin E an Effective Treatment for Radiation-Induced Optic Neuropathy?

Beyond Gaming

Beyond Gaming

Beyond Gaming

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