Gonioscopy

Gonioscopy describes the use of a goniolens (also known as a gonioscope) in conjunction with a slit lamp or operating microscope to gain a view of the iridocorneal angle, or the anatomical angle formed between the eye's cornea and iris. The importance of this process is in diagnosing and monitoring various eye conditions associated with glaucoma.

The goniolens or gonioscope
The goniolens allows the physician - usually an ophthalmologist or optometrist - to view the irideocorneal angle through a mirror or prism, without which the angle is masked by total internal reflection from the ocular tissue.

The mechanism for this process varies with each type of goniolens. Three examples of goniolenses are the:


 * Koeppe direct goniolens: this transparent device is placed directly on the cornea along with lubricating fluid, to avoid damaging its surface. The steeper curvature of this goniolens' exterior surface optically eliminates the total internal reflection problem and allows a view of the iridocorneal angle. Unfortunately it requires the patient to be lying down, and so it cannot be so easily used with an ordinary slit lamp in an optometric environment. In an ophthalmological setting, an operating microscope is one available option.




 * Goldmann indirect goniolens: this truncated-cone like device utilises mirrors to reflect the light from the iridocorneal angle into the direction of the observer (as shown by the schematic diagram). In practice the image comes out roughly orthogonal to the back surface (nearer the practitioner), making observation and magnification with a slit lamp easy and reliable. The small, curved front surface does not rest on the cornea, but instead vaults over it, with lubricating fluid filling the gap. The border of the front surface rests on the sclera. While the view obtained is smaller than that of the Koeppe goniolens, it can be used with the patient sitting upright, and other mirrors within the device can be used to obtain views of other parts of the eye, such as the retina and the ora serrata.


 * Zeiss indirect goniolens: this instrument uses a similar method to the Goldmann, but employs prisms in the place of mirrors. Its four symmetrical prisms allow visualisation of the iridocorneal angle in four quadrants of the eye simultaneously, and works well with a slit lamp. Most importantly, the size and shape of the instrument - a smaller front surface that rests on the cornea without requiring lubricating fluid, only the patient's tear film - allows for indentation gonioscopy, which can be used for further diagnosis.

There are many other goniolenses available for use, including modified versions the aforementioned, which prove valuable for surgical use.

The gonioscopy process
Although the details vary based on the type of goniolens used, in general the gonioscopy process involves:


 * briefly explaining the procedure to the patient
 * cleaning and sterilising the front (curved) surface of the goniolens
 * applying lubricating fluid to the front surface if appropriate
 * anaesthetising the patient's cornea with topical anaesthetic
 * preparing the slit lamp for viewing through the goniolens
 * gently moving the patient's eyelids away from the cornea
 * slowly applying the goniolens to the ocular surface, forming suction
 * fine-tuning the slit lamp to optimise the view
 * interpreting the gonioscopic image
 * swivelling the goniolens to view each section of the iridocorneal angle
 * when satisfied, very carefully breaking suction via the eyelids
 * cleaning the instruments and irrigating the patient's eyes with saline if desired

Interpreting the gonioscopic image
The typical view through most goniolenses is illustrated by these idealistic schematic diagrams. In reality the clinical picture can vary both within and between individual patients. This view of the iridocorneal angle provides information in several ways:




 * Iridocorneal angle width: The width of the iridocorneal angle is one factor affecting the drainage of aqueous humour from the eye's anterior chamber. A wide angle allows sufficient drainage of humour through the trabecular meshwork (unless obstructed), whereas a narrow angle may impede the drainage system and leave the patient susceptible to acute angle-closure glaucoma. Gonioscopy indicates the angular width of the iridocorneal angle by the number of ocular structures visible above the rim of the iris. Generally the more structures visible, the wider the angle. However, not all structures may be easily discriminated, especially the faint Schwalbe's line at the top of the stack. Further information is obtained if a very narrow slit lamp beam may be shone upon the angle, as the angle width is generally proportional to the separation of the corneal beam and iris beam when they meet in the angle.


 * Anterior synechiae: Anterior synechiae are simply stands of the iris attaching to the iridocorneal angle or surrounding tissue. This may be exacerbated by ocular inflammation, which can render the angle 'sticky' with inflammatory cells and substances, or by structural defects in the iris which lead to strands floating free into the anterior chamber, as may occur with iris atrophy and congenital iris defects. Gonioscopy allows a direct view of these synechiae, and is thus especially helpful for the more subtle cases.


 * Indentation gonioscopy: An extension of the above two concepts, indentation gonioscopy involves the applied pressure of the goniolens against the eye, acutely raising the intraocular pressure in the anterior chamber and subsequently opening up the iridocorneal angle mechanically, allowing a greater understanding of the nature of the anterior synechiae. In the absence of synechiae, indentation gonioscopy may reveal the area where the cornea and iris are truly anatomically attached, as compared to where they are simply apposed against each other.

gonioskopija Gonioscopia