The human eye
Everything you need to know about the anatomy, structure and functions of our body’s vision center.
The eye is one of our most important sensory organs – hardly any another organ is as complex. The human eye is capable of absorbing and instantly processing more than ten million pieces of information per second. But have you ever thought about how the eye actually works? How are images that we see actually generated? And what parts of our body are involved in this intricate process? BETTER VISION gives us all the details – on everything from the eye’s anatomy and structure to its functions.
The eye works in much the same way as a video camera – put simply, its different parts work together to visualize the world around us. Read on to find out exactly how the eye works. But first, let’s discuss the key parts of the eye and its structure.
The way we see things is all part of a complex process: before we see something, a string of individual steps occur in the eye and the brain. We talk about the retino-cortical pathway, which begins at the eye and runs all the way to our brain. Put simply, vision happens like so: the human eye absorbs light from its surroundings and collects it on the cornea. This results in an initial visual impression. Then, each eye forwards this image to the brain via the optic nerve and processes it, resulting in what we call “vision.” Light forms the basis of everything we see. In complete darkness, we are virtually blind.
Specifically, this means that if we are to even have a chance of seeing an object, some light has to fall on it. This light is then reflected back by the object and processed by our visual apparatus. If we look at a tree, our eyes absorb the light it reflects: the rays first penetrate the conjunctiva and the cornea. Next, they pass through the anterior chamber and the pupil. Then, the light arrives at the eye’s lens, where it is collected and transferred to the photosensitive (=light-sensitive) retina. There, the visual information is gathered and sorted: the rods are responsible for light-to-dark vision, and the cones are in charge of clarity and colors. This information is transferred to the optic nerve, which takes it directly to the brain, where it is once again assessed, interpreted and consolidated to form the image that we ultimately see.
Even though we have detailed findings relating to the anatomy of the human eye and its structure, many questions about how our consciousness works remain very much unanswered. So while you know what parts of your brain are the most active when you see something, no one quite knows how we perceive the world as a result.
Seeing things close up and far away
Healthy eyes do this automatically, without any help – so that we can switch between near and distance vision and see objects clearly at both distances. This dynamic ability to see objects clearly at different distances is known as accommodation. It is based on the elasticity of our eye’s lens. As long as there is no impairment, it can change its shape and thus adapt to objects close up or far away, depending on what we want to see. A normal eye’s lens is flat and long – which is ideal for looking at objects in the distance. But if we look at an object close up, the lens becomes more curved: it switches to close range and allows us to see nearby objects clearly. Accommodation is always triggered when objects appear blurred on the fovea.
Seeing objects during the day – how our eyes work
Seeing objects when there’s plenty of light (photopic vision or daytime vision) is a task assumed by the sensory cells responsible for color vision: the cones. The pupil is also involved in daytime vision: the brighter it is, the smaller the pupil becomes. It adapts to different light intensities and regulates the amount of light that enters the eye. This quality is known as adaptation. Sunglasses and tinted lenses can protect the eye against bright light.
Night and dusk vision
At night, our eyes switch from daytime vision (photopic vision) to nighttime vision (scotopic vision). Healthy eyes need around 25 minutes to adapt to the dark. The less light that’s available, the more active the eye’s sensory cells will become; they’re responsible for our light-to-dark vision and are known as rods. At the same time, the pupils widen to “let in” as much light as possible. Healthy eyes have no trouble adapting to changing light conditions. Hereditary diseases, certain medication, injuries and a vitamin A deficiency can all result in limited vision at night or dusk. This is a problem that affects many people who wear glasses. Pupils need to dilate more in reduced lighting conditions. As a result, depth of field is lost and spatial vision limited, while reflections and poor contrast tire the eyes. i.Scription® technology from ZEISS factors the wearer’s dilated pupils at night into the lens design, which considerably improves visual performance in low light.
And did you know that our light-and-dark vision also plays a role when it comes to safety on a plane? During takeoff and landing, the cabin lights are dimmed so that passengers’ and crew members’ eyes can adapt immediately to the new light conditions in the event of a crash. This can save precious seconds in an emergency
Vision problems and eye diseases – what to do if your vision is restricted
Short-sightedness, long-sightedness, presbyopia – there are many vision problems that can limit our visual perception. In most cases, an optimally fitted pair of glasses with the right lenses can help you see clearly once more. BETTER VISION explains: What type of lens is suitable for different visual impairments?
Many eye diseases can have an impact on our vision – and dire consequences for the way we perceive the world around us. This includes everything from the more minor eye diseases such as chronically dry eyes, vitreous opacities and squinting to cataract, glaucoma and macular degeneration. But what are the most common eye diseases and how can you recognize them?
So are all of these terms and processes mixed up in your head? Don’t sweat it! As you can see, the human eye is a highly complex organ that works closely with the brain; in fact, it’s often regarded as the window to the brain. Hardly any other one of our senses gives us so much information about our environment, daily life or the people around us – and, ultimately, about ourselves.
This might also interest you
- The complexities of the human eye â from the blind spot and macula to focused/central (or foveal) and peripheral vision
- How does color vision work?
- What is color blindness and what can people affected by it do?