Cyclophoria

This work being of a technical nature, it is deemed best for the reader to study Chapter [XIII] and [XIV].

Chapter XIII
CYCLOPHORIA

Made with Maddox Rods
and Rotary Prisms

Cyclophoria, a condition affecting the oblique muscles of the eye, is caused by its rotation. It is detected in the following manner by the combined use of the red and white Maddox rods and the rotary prism.

Fig. 29—Position of rotary prism for producing diplopia in testing cyclophoria with prism placed at 8° base up.

Darken the room and direct the patient’s attention to the usual muscle-testing spot of light, located approximately twenty feet away and on a direct plane with the patient’s eye. The optical correction, if one is required, should always be left in place—just as in making other previously described muscle tests.

The rotary prism should then be brought before the patient’s right eye with the handle-pointing upward and with zero graduations horizontal. The indicator or red line should then be rotated upward from zero to eight upon the prism scale, creating the equivalent of a prism of 8 diopters with base up ([Fig. 29]). This normally caused diplopia, although in some cases it may be necessary to place the prism at 10 or 12 degrees before diplopia is produced.

Fig. 30—(A. and B.)—First position of both Maddox rods used in conjunction with [Fig. 29] for determining cyclophoria.

The red Maddox rod should then be brought into operative position before the patient’s left eye ([Fig. 30a]) and the white Maddox rod before the patient’s right eye, ([Fig. 30b]) setting each one so that the rods lie in a vertical position with their white line on the large red zero (0).

The patient should now see two separate and distinct streaks of light, one appearing below the other.

DETERMINING CYCLOPHORIA

Fig. 31

Fig. 34

Fig. 32

Fig. 35

Fig. 33

Fig. 36

Figs. 31-36—Diagram showing how streaks appear to patient, as produced by the Maddox rods in testing for cyclophoria.

Should there be no cyclophoria of the right eye, the streaks will appear in a horizontal plane parallel to each other ([Fig. 31]).

Should the red streak appear horizontally to the left eye, and the white streak seen by the right eye appear at an angle therewith, cyclophoria of the right eye would be indicated ([Fig. 32]).

In brief, should the white streak dip towards the patient’s left side, the case would be one of right plus cyclophoria ([Fig. 32]); whereas right minus cyclophoria would be indicated should the white streak dip to the patient’s right side ([Fig. 33]).

Next, setting the rotary prism of 8 degrees, placed base up before the patient’s left eye, the red streak should appear below the white one. Should the two streaks appear horizontally, parallel with each other, there would be no cyclophoria of the left eye ([Fig. 34]).

If, however, the upper or white streak should appear horizontal, and the lower or red streak at an angle therewith dipping toward the patient’s right side, the left eye would be cyclophoric and the case would be one of left plus cyclophoria, as the chart indicates ([Fig. 35]).

Should the red streak dip in toward the patient’s left side, left minus cyclophoria would be designated ([Fig. 36]).

The patient would instinctively describe, with pointed finger and hand motion, the position of the “dipping” line just as one would describe a spiral staircase. Should this test determine that no cyclophoria exists in either eye, there would be no necessity for further tests.

Some authorities claim that both Maddox rods should be of the same color, so as to more readily assist the patient to fuse the two objects. If the reader so desires, he can readily place a red lens from the trial-case in the forward cell of the instrument.

The characters plus and minus in cyclophoria merely refer to plus as signifying a tendency toward the temporal side; minus indicating a tendency toward the nasal side. This has no bearing on “convex” and “concave,” which are frequently designated as “plus” and “minus.”

The test for cyclophoria is particularly essential, proving of utmost importance where the patient requires an astigmatic correction with the cylinder axis in oblique meridian. The case should then be investigated in every instance by making a thorough and separate test of each eye for cyclophoria.

In a case where cyclophoria is determined, the trouble may be caused by the functioning of other muscles, through the drain of nerve force, thus disturbing the harmony of every muscle action.

Cyclophoria is frequently caused by an imbalance of two recti, giving an oblique pull. In most cases, it is merely necessary to release the torsion, as described in the following chapter.

Chapter XIV
CYCLODUCTION TEST

Made With the Combined Use of
the Two Maddox Rods

Having determined that cyclophoria exists, as previously outlined, the next step would be to make a cycloduction test, or a test of the oblique muscles individually. Maddox rods, both red and white, should be placed in position with the rods horizontal—the plus and minus sign at 90 degrees on the scale ([Fig. 37]). The patient’s attention should be directed to the usual muscle-testing spot of light, when a vertical band of light will appear to the patient, as shown in [Fig. 38].

Fig. 37—(A. and B.)—Primary position of combined use of both Maddox rods for determining cycloduction test.

Fig. 38

Fig. 39

Fig. 40

Figs. 38-40—Diagram showing position of streaks produced by Maddox rods as they appear to patients in making cycloduction tests.

To measure the duction range of the inferior oblique of the right eye, it is merely necessary to slowly rotate the Maddox rod before the right eye upward at its nasal end to the point where the band of light breaks so as to resemble a letter “X”. This gives in degrees the amount of right plus cycloduction, as indicated on the temporal scale, when it will appear to the patient, as shown in [Fig. 39].

The Maddox rod should then be restored to its original position, with the plus and minus on the 90 degree line of the scale ([Fig. 37]), and rotated upward at the temporal end until it again takes the form of the letter “X”. ([Fig. 40].) The position of the indicator will now denote the amount of right minus cycloduction, or duction range of the right superior oblique muscles. Having determined the duction range of the oblique muscles of the patient’s right eye, both Maddox rods should be placed in original position with rods horizontal and plus and minus sign on 90° of scale, as shown in [Fig. 37].

The Maddox rod before the left eye is then employed exactly in the same manner as before when the test for the right eye was made. A plus cycloduction of the left eye would be indicated, as shown in [Fig. 40], while a minus cycloduction of the left eye would appear to the patient, as shown in [Fig. 39].

By recording a comparison of each eye, as explained, it will be found that the range of duction usually averages five to twenty degrees on either side of the 90 degree line, as indicated on the scale surrounding the Maddox rods.

It will be recalled that cyclophoria was only to be looked for in oblique astigmatic cases. It is frequently possible to correct the patient’s trouble, by changing the axis of the cylinder, before one or both eyes, a minus cycloduction signifying a change of axis towards 180° while a plus toward 90°, according to the amount lacking in full duction power. It is also well to exercise the oblique muscles through a rotation of the Maddox rod before the affected eye, whether it be one or both that is lacking in full duction power, until the required amount is reached to equal its fellow member.

For a more exhaustive treatise the author suggests a reading of Dr. Savage’s work on the subject.