20.2:

Accessory Structures of the Eye

JoVE Core
Anatomy and Physiology
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JoVE Core Anatomy and Physiology
Accessory Structures of the Eye

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01:17 min

February 01, 2024

Optical perception, or vision, is an extraordinary sense dependent on converting light signals received via the ocular organs. These organs, known as eyes, are securely positioned within the bony cavities of the skull, called orbits. The orbits serve a dual purpose: a protective shield for the ocular globes and a stable attachment point for the soft ocular tissues. The eye's external protective mechanisms include the eyelids, which are edged with lashes that act as a barrier against foreign particles potentially causing abrasions. Covering the inner surface of each eyelid is a delicate membrane termed the palpebral conjunctiva. This membrane covers the sclera, the white portion of the eye, forming a connection between the eyelids and the eyes. The lacrimal gland, located within the orbit at a position superior and lateral to the eye, is responsible for the production of tears. These tears traverse through the lacrimal duct to the eye's medial corner, moistening the conjunctiva and effectively cleansing the eye of any foreign bodies.

The ocular movements within the orbital cavity are engineered by contracting six periorbital muscles originating from the periorbital bone structure and attaching to the spherical ocular structure. These muscles comprise the superior, medial, inferior, and lateral rectus, strategically positioned at the major directional points around the ocular organ. Upon contraction, the respective muscle guides the eye toward the direction of the contracting muscle. For instance, an upward gaze is facilitated by the contraction of the superior rectus. The superior oblique muscle, attached obliquely to the superior surface of the eyeball, is located posteriorly in the orbital cavity near the origination point of the rectus quartet. Contraction of the superior oblique muscles results in a lateral eyeball rotation. The inferior oblique muscle, originating from the orbital floor and attaching to the inferior-lateral surface of the eye, executes a similar lateral rotation of the eye upon contraction, acting in opposition to the superior oblique. This ocular rotation facilitated by the oblique duo is requisite due to the slight eye misalignment on the sagittal plane. Thus, in situations requiring upward or downward gaze, a fine rotational adjustment is necessary to counteract the off-center pull of the superior and inferior rectus muscles. The contraction of the inferior oblique muscle manages this adjustment. Another muscle within the orbital architecture, the levator palpebrae superioris, is tasked with elevating and retracting the upper eyelid. This movement usually synchronizes with the elevation of the eye by the superior rectus. Three cranial nerves handle the innervation of these extraocular muscles. Specifically, the lateral rectus (which executes the abduction of the eye) is innervated by the abducens nerve; the superior oblique receives signals from the trochlear nerve; and the remainder of the muscles, including the levator palpebrae superioris, are innervated by the oculomotor nerve. The motor nuclei of these cranial nerves maintain connections with the brain stem, which, in turn, coordinates the ocular movements.

Diseases of accessory structures of the eye: 

Diseases of accessory structures of the eye include specific allergic reactions, bacterial conjunctivitis, blepharitis, and dry eye syndrome:

  • • Allergic reactions involve increased histamine production by the body's immune cells, resulting in redness, itching, and swelling around the eyes.
  • • Bacterial conjunctivitis is caused by bacteria lodged within the palpebral conjunctiva and is characterized by redness, swelling, and discharge in the eye.
  • • Blepharitis occurs due to inflammation of multiple meibomian glands involving both eyelids. It can cause itching, a burning sensation in the eyes, scaling of the eyelid margins, and redness.
  • • Dry eye syndrome is caused by the decreased production or excessive evaporation of tears, leading to dryness, burning, irritation, and eye redness.

Treatment for these conditions include

  • • Artificial tears for dry eye syndrome
  • • Corticosteroids and antibiotics for bacterial conjunctivitis
  • • Antihistamines for allergies
  • • In cases of blepharitis, eyelid hygiene, which involves gently applying warm compresses, massaging the eyelids, and using an eyelid scrub, is recommended. These treatments can help to reduce inflammation and prevent the progression of the disease.

The eyes also play a significant role in facial expressions. Controlling ocular movements is essential for expressing surprise, joy, or displeasure. For example, when surprised, our eyes tend to open wider, whereas an upward and outward movement of the eyes characterizes a smile. The ocular muscles, with their fine-tuned control of eye movements and adjustments in a degree of aperture, are instrumental in conveying emotions to observers. This means that proper functioning of these muscles is essential for regular facial expressions. Disease conditions such as strabismus can impair this ability, causing a loss of emotive facial control. Therefore, regular eye exams are essential to ensure the health of the ocular organs and their proper functioning for both visual acuity and emotional expression. Additionally, wearing protective eyewear while engaging in outdoor activities is recommended to guard against potential injuries to the delicate tissues surrounding the eyes. By doing so, we can ensure our ocular organs' long-term health and associated functions.

In addition, it is crucial to be aware of eye strain. Eye strain is caused by excessive or prolonged use of the eyes for activities such as computer work, reading, or writing. Symptoms of eye strain include headaches, blurred vision, dry eyes, neck and shoulder aches, and tiredness. To prevent eye strain, taking regular breaks from tasks requiring visual concentration, such as taking a break every 30 minutes, is essential. During these breaks, it is recommended that you look away from the screen or book at a distant point to rest your eyes. It is also advisable to use proper lighting and adjust the contrast and brightness levels on screens to reduce strain. Lastly, it is recommended to use eye drops or lubricant ointment if needed to reduce dryness and irritation in the eyes. By following these simple preventative measures, we can help ensure the long-term health of our eyes and vision.