1.Failing to properly focus the eyepiece:
If the eyepiece is not focused to the examiner's eye, it can lead to inaccurate measurement of power.
2.Incorrectly positioning the lens:
If the lens is at the wrong angle or not properly centered on the reticle it can cause errors in both axis and power measurements.
3. Not compensating for calibration errors:
If the lensometer is not properly calibrated to read 0D with no lens, then the measured powers will be inaccurate by the same amount.
4. Misinterpreting principal vs spherocylindrical powers:
Lensometers measure these two principal powers, which then need to be converted to sphere, cylinder and axis. Failing to do this conversion correctly can lead to 90° axis errors.
5. Not verifying against the original prescription:
Checking the lenses against the lab invoice rather than the doctor's original Rx can miss 90° axis errors made by the lab.
1. Always focus the eyepiece:
Before each use, carefully focus the reticle by looking through the eyepiece and adjust the diopter ring.
2. Properly position and center the lens:
Align the 180° axis line parallel to the reticle and adjust the lens until the target lines cross at the center.
3. Periodically check calibration:
Ensure the power wheel reads 0D when no lens is present, by focusing the target. Compensate for any error in future measurements.
4. Understand principal vs spherocylindrical powers:
When measuring a spherocylindrical lens, take two readings 90° apart. Convert these to sphere, cylinder and axis.
5. Always verify against the original Rx:
Check the lens against the doctor's prescription, not the lab invoice, to catch any 90° axis mistakes.
By following these best practices, you can minimize common errors and ensure the most accurate lensometer measurements to provide your patients with precisely fabricated eyeglasses.
Reunión virtual con el Dr. Julian Triviño (Colombia)
