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The optic disc or optic nerve head is the point of exit for ganglion cell leaving the . Because there are no or overlying the optic disc, it corresponds to a small blind spot in each eye.

The ganglion cell axons form the after they leave the eye. The optic disc represents the beginning of the optic nerve and is the point where the axons of retinal cells come together. The optic disc in a normal human eye carries 1–1.2 million afferent nerve fibers from the eye toward the brain. The optic disc is also the entry point for the major arteries that supply the with blood, and the exit point for the from the retina.

Structure
The optic disc is located 3 to 4 mm to the nasal side of the . It is a vertical oval, with average dimensions of 1.76mm horizontally by 1.92mm vertically.
(2025). 9780781768559, Lippincott Williams & Wilkins.
There is a central depression, of variable size, called the optic cup. This depression can be a variety of shapes from a shallow indentation to a bean pot—this shape can be significant for diagnosis of some retinal diseases.

Function
The optic disc or optic nerve head is the point of exit for ganglion cell leaving the . Because there are no or overlying the optic disc, it corresponds to a small blind spot in each eye.

Clinical significance
Almost all eye structures can be examined with appropriate optical equipment and lenses. Using a modern direct gives a view of the optic disc using the principle of reversibility of light. A along with an appropriate focusing lens (+66D, +78D or +90D) is required for a detailed view of the optic disc and structures inside the eye.

A biomicroscopic exam can indicate the health of the optic nerve. In particular, the eye care physician notes the colour, cupping size (as a cup-to-disc ratio), sharpness of edge, swelling, hemorrhages, notching in the optic disc and any other unusual anomalies. It is useful for finding evidence corroborating the diagnosis of and other optic neuropathies, , anterior ischemic optic neuropathy or (i.e. optic disc swelling produced by raised intracranial pressure), and optic disc drusen.

Women in an advanced stage of pregnancy with should be screened by an ophthalmoscopic examination of the optic disc for early evidence of a rise in intracranial pressure.

Pale disc
A normal optic disc is orange to pink in colour and may vary based on ethnicity. A pale disc is an optic disc which varies in colour from a pale pink or orange colour to white. A pale disc is an indication of a disease condition.

Imaging
Traditional colour-film camera images are the reference standard in imaging, requiring an expert ophthalmic photographer, ophthalmic technician, optometrist or ophthalmologist for taking standardised pictures of the optic disc. Stereoscopic images offer an excellent investigative tool for serial follow-up of suspected changes in the hands of an expert optometrist or ophthalmologist.

Automated techniques have also been developed to allow for more efficient and less expensive imaging. Heidelberg retinal tomography (HRT), scanning laser polarimetry and optical coherence tomography are computerised techniques for imaging various structures of the eyes, including the optic disc. They quantify the nerve fiber layer of the disc and surrounding retina and statistically correlate the findings with a database of previously screened population of normals. They are useful for baseline and serial follow-up to monitor minute changes in optic disc morphology. Imaging will not provide conclusive evidence for clinical diagnosis however, and the evidence needs to be supplanted by serial physiological testing for functional changes. Such tests may include visual field charting and final clinical interpretation of the complete by an eye care physician. Ophthalmologists and optometrists are able to provide this service.

Blood flow in the and in the optic disc region can be revealed non invasively by near-infrared laser Doppler imaging.Puyo, L., M. Paques, M. Fink, J-A. Sahel, and M. Atlan. "In vivo laser Doppler holography of the human retina." Biomedical optics express 9, no. 9 (2018): 4113-4129. Laser Doppler imaging can enable mapping of the local arterial resistivity index, and the possibility to perform unambiguous identification of retinal arteries and veins on the basis of their - variations, and reveal ocular in human eyes.Puyo, Léo, Michel Paques, Mathias Fink, José-Alain Sahel, and Michael Atlan. "Waveform analysis of human retinal and choroidal blood flow with laser Doppler holography." Biomedical Optics Express 10, no. 10 (2019): 4942-4963. Furthermore, the Doppler spectrum asymmetry reveals the local direction of blood flow with respect to the optical axis. This directional information is overlaid on standard grayscale blood flow images to depict flow in the central artery and vein.Puyo, L., M. Paques, and M. Atlan. "Retinal blood flow reversal in out-of-plane vessels imaged with laser Doppler holography" Https://arxiv.org/abs/2008.09813< /ref>

A systematic review of 106 studies and 16,260 eyes compared the performance of the imaging techniques, and found that all three imaging tests performed very similarly when detecting for glaucoma. The review found that in 1,000 patients subjected to imaging tests, with 200 having manifest glaucoma, the best imaging tests would miss 60 cases out of the 200 patients with glaucoma, and incorrectly refer 50 out of 800 patients without glaucoma.

Abnormalities
  • : a non-progressive condition in which the optic disc is enlarged (diameter exceeding 2.1 mm) with no other morphological abnormalities.
  • Morning glory disc anomaly: a unilateral congenital deformity resulting from failure of the optic nerve to completely form in utero. The term was coined in 1970 by Kindler, noting a resemblance of the malformed optic nerve to the flower.
  • : congenital excavation of the optic disc resulting from a during development of the eye.

Gallery
File:LDH_ONH_ED.gif|Blood flow in the optic disc revealed by holographic laser Doppler imaging. File:LaserDopplerHolographyRetinaSpectralAsymmetry.gif|Local direction of blood flow with respect to the optical axis revealed by the Doppler spectrum asymmetry in out-of-plane retinal vessels by holographic laser Doppler imaging. File:Optic_cup_and_macula_-_3D_motion_parallax.gif|Three dimensional image of a healthy optic disc in a 24-year-old female. File:Optic disc detail.png|alt=High detail picture of optic disc.|Optic disc showing microvasculature. File:Tilted Disc Syndrome.jpg|Tilted optic disc in left eye of a 20-year-old male. File:Optic disc edema and haemorrhage.jpg|Optic disc edema and haemorrhage

Comparative anatomy
The optic disc has different shapes among vertebrates. It may be circular, oval, reniform, triangular, or linear. The linear form is the case for the squirrels, most birds, and the predaceous pikes, , and among the fishes.

Most squirrels have a very long and thin linear optic disc, placed horizontally and dorsally in the retina. This allows the squirrel to see the sky without blind spots. Generally, the brighter the environment that the squirrel is active in, the longer the optic disc. The flying squirrel Glaucomys volans is nocturnal, and has a circular optic disc at the center of the fundus.

See also
  • Optic disc pallor

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