PURPOSE: To determine whether higher-order aberrations explain patient-reported monocular triplopia. DESIGN: Observational case report. METHOD: A patient complaining of monocular triplopia was examined with a Hartmann-Shack aberrometer to determine whether higher-order wavefront aberrations could account for the triplopia. The patient had a mild nuclear cataract; measurements were made before and after lensectomy. The retinal image was simulated using the Zernike polynomials. RESULT: Spherical aberration (-0.18 microm, 4 mm pupil) and trefoil aberration (-0.16 microm) were increased. The simulated retinal image had a triple configuration similar to the subjective image reported by the patient. After cataract surgery, the subjective triplopia disappeared; spherical, and trefoil aberrations were markedly decreased. CONCLUSION: The monocular triplopia probably stemmed from combined effects of spherical and trefoil aberrations caused by the nuclear cataract.
PURPOSE: To determine whether higher-order aberrations explain patient-reported monocular triplopia. DESIGN: Observational case report. METHOD: A patient complaining of monocular triplopia was examined with a Hartmann-Shack aberrometer to determine whether higher-order wavefront aberrations could account for the triplopia. The patient had a mild nuclear cataract; measurements were made before and after lensectomy. The retinal image was simulated using the Zernike polynomials. RESULT: Spherical aberration (-0.18 microm, 4 mm pupil) and trefoil aberration (-0.16 microm) were increased. The simulated retinal image had a triple configuration similar to the subjective image reported by the patient. After cataract surgery, the subjective triplopia disappeared; spherical, and trefoil aberrations were markedly decreased. CONCLUSION: The monocular triplopia probably stemmed from combined effects of spherical and trefoil aberrations caused by the nuclear cataract.