Light Quality Enhances Contrast Vision

Contrast sensitivity (text and shading) can be improved by stimulating melanopsin cells in the retina
Left: low contrast sensitivity vision, right: high contrast sensitivity vision. (Newswise)
Left: low contrast sensitivity vision, right: high contrast sensitivity vision. (Newswise)
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Researchers Prof Sei-ichi Tsujimura from Nagoya City University and Prof Su-Ling Yeh from National Taiwan University and Kagoshima University found that using a specific type of light can make our eyes see better. This special light spectrum stimulates certain cells in our eyes called melanopsin cells, which improve our ability to see contrasts and details.

Background

In the eye's retina, there are two types of photoreceptor cells responsible for different functions: cone photoreceptor cells, which detect colors in well-lit environments, and rod photoreceptor cells, which operate in low-light conditions. Traditionally, it was believed that these two photoreceptor types were solely responsible for human vision and object recognition. However, in the early 2000s, researchers made a significant discovery of a third type of photoreceptor cell called melanopsin ganglion cells (ipRGCs) within the retina. These melanopsin cells have been found to play a crucial role in regulating various aspects of human physiology, including circadian rhythm, pupillary light reflex, brightness perception, mood, and more. As a result, studying the function of melanopsin cells has become a matter of great importance and has presented a stimulating challenge for numerous researchers.

Melanopsin-high: melanopsin cell stimulation condition; Control: control condition. (Newswise)
Melanopsin-high: melanopsin cell stimulation condition; Control: control condition. (Newswise)

Research findings

Professor Tsujimura's laboratory achieved a groundbreaking feat by creating an experimental device capable of selectively stimulating melanopsin cells for the very first time worldwide. This was accomplished by adjusting the color spectrum of light. With this device in hand, they conducted experiments to investigate the role of melanopsin cells in contrast sensitivity.

Contrast sensitivity is a crucial aspect of our vision, as it determines our ability to discern different levels of brightness in text and images. It enables us to distinguish objects from their backgrounds, making it a vital characteristic for visual perception. Typically, contrast sensitivity is lower in dimly lit environments but improves as the light becomes brighter. However, there is a point where further increases in brightness no longer enhance sensitivity.

Left: low contrast sensitivity vision, right: high contrast sensitivity vision. (Newswise)
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During their research, Professor Tsujimura and his collaborators made a fascinating discovery. They found that by increasing the stimulation to melanopsin cells, they could enhance contrast sensitivity in humans without altering the overall luminance or chromaticity of the illumination light. This finding sheds new light on the importance of melanopsin cells in the visual system and opens up exciting possibilities for understanding and improving human vision capabilities.

This research focused on enhancing contrast sensitivity through a specialized lighting system designed to selectively stimulate melanopsin cells, without altering the light's brightness or color. This breakthrough has the potential to revolutionize the development of innovative lighting devices and displays, moving beyond mere adjustments to color or intensity. Our ongoing investigation into human vision aims to unravel the underlying mechanisms within the brain, allowing us to propose optimal light environments for various applications. (DPK/NW)

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Left: low contrast sensitivity vision, right: high contrast sensitivity vision. (Newswise)
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